Ken Ratri - Architecture Portfolio

Terasering Wetland

Bioswales

number.

Spread water Open and maximize > being accumulated space for water

WETLANDS

WETLANDS in Jakarta are mostly consist of neglected empty lands with huge amount of water resource. It also contains huge amount of municipal waste such as plastic bag and other unbiodegredable waste. Restoration strategies includes landscape arrangement to create more public spaces and water catchment and filtering area.

After being processed, the water can be directly distributed for daily use of community in surrounding, some of them is stored/collected, some remains in the site for flora-fauna and act as recreational element

PUBLIC SPACE

Habitat WATER CATCHMENT AREA

WETLAND PARK

Wetlands Park -

Wetland park made of terraced wetlands with retention pond on the lower ground. Large scale of bioswale span across the site to maximize stormwater management and act as recre ational space alongside the water flows. The terraces was based on geographic information and water flow analysis on the site. The terraces wetlands are using gravity, passively filtering water. Water treatment process which is based on different slopes are thematic and have unique, different impressions for each pixel. Wetland park also act as a firsthand exposure to human on how water is managed and being processed so people are encouraged to be more aware to preserve an d wiser in using water.

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RIVER Almost all of Jakarta natural landsccapes alongside the RIVER are already gone. There are many obstacles that lead to this conditions, one of them is high density of settlement alongside the river. This also leads to increasing number of slum area and flooding. Our strategies is to restore the natural landscape of the river, along with the species and encour age human to live together with other species. HOUSING

WATER CATCHMENT AREA

These terraced wetlands slowing down the flow of water and speed nutrient removal from the water by microorganism and plant species that use excess nutrients as resources for their growth.

LANDSCAPE RESTORATION

LAKE There are several LAKE in Jakarta but none of them get serious treatment as biggest water catchment area. Such negligance leads to flooding and water pollution. Lake has biggest potential of biodiversity number so the design strategies are includes preserve and create new habitat for other species. There are also raingardens to create more water catchment area.

[

RAINGARDENS

NEW HABITAT WATER CATCHMENT AREA

After

Before

Increase quantity of clean water production from Jakarta water resource

Only 5,7% clean water are produced from Jakarta water resource

CLEAN WATER PRESERVATION TARGET quantity of water

2/4

WATER PRESERVATION AS IMPULSE Water are required to support biodiversity. Without sufficient water, stresses on specieses and decrease the number of biodiversity (UNESCO, 2019). Water could be recycled but not replaced. That’s why we need to preserve it more. Water cycle are heavily influenced by the ecosystem. Ecosystem are one of the aspects of biodiversity. The problem about water and ecosystem are both real in Jakarta. Growing population and rapid urbaniza tion affects on water quality.

GOALS : INCREASING BIODIVERSITY

There are four aspects of biodiversity : ecosystem, species, genetic, and functional. The more diverse those aspects, the higher biodiversity could get. The biggest aspects from all of this is ecosystem, because more ecosystem means there will be more habitat to various species. That’s why in our design, we choose water as impuls because water are required to support biodiversity. The strategy of water preservation brings new ecosystem and increase the number of biodiversity.

BIODIVERSITY INDEX based on singapore index

Besides the four aspects of biodiversity, there’s biodiversity index applied in Singapore in a form of regulations. We take some part of it to be implemented in our design. We will evaluate our design from this index and aspects in order to increase the biodiversity. We hope that Jakarta could restorized their biodiversity and be a nature-friendly city.

carbon storage & cooling effect on vegetation

quantity of water

area of parks with natural area

change in number of species

proportion of natural area in the city

connectuvty measure

KEN RATRI ARCHITECTURE PORTFOLIO kenratristudio@gmail.com

CURRICULUM VITAE PERSONAL Nama Address Phone Email Date of Birth Nationality

I’m a motivated, enthusiastic, and adaptable person who looking an opportunity to learn about architecture. I’m always up for a new challange and always try to identify and develop opportunities. I enjoy and able to work well both in a team as well as in my own initiative. In short, I am hardworking, reliable, and have eagerness to learn, alson have so much interest in architecture.

ken ratri

: Monica Teresa Ken Ratri Drupadi : Kemetiran Kidul GT II/no.718 RT 55 RW 16, Pringgokusuman, Gedongtengen, Yk. : 082236470878 : kenratristudio@gmail.com : August 27th 1997 : Indonesian

EDUCATIONAL BACKGROUND

SKILLS

2016-2020

Adobe Photoshop Adobe Illustrator Sketchup Rhinocheros Grasshopper Lumion Autocad Microsoft Dialux Envimet CorelDraw Adobe After Effect

2013-2016 2010-2013 2004-2010

: Bachelor Degree Architecture and Planning Department , Gadjah Mada University : Senior High School at SMA Negeri 2 Yogyakarta : Junior High School at SMP Pangudi Luhur 1 Yogyakarta : Elementary School at SD Pangudi Luhur Yogyakarta

TIMELINE

ACTIVITY EXPERIENCE

2019 2019 2019 2019 2018 2018 2017-2019 2017-2019 2017-2018 2017 2017-2018 2016-2018 2016-2017 2016 2015

Asian Cooperative Program International Conference Pasca KKA Exhibition: Visualization Division Pasca KKA Exhibition: Archilogy Volume 5 Pasca KKA Exhibition: Shopping Tourism KKA “Tourism” MPPDA Teaching Assistant Rupa Dasar Teaching Assistant DorxLab Parametric Architectural Research and Modeling OC - Fund Raising Coordinator for Kuliah Kerja Arsitektur Tutor in “Urban Sketch Workshop” held by GMU Facilitator for New Student REMBUG GMU Student Committee of Architecture Department GMU Student Committee of KMKT (Keluarga Mahasiswa Katolik Teknik) Treasurer for Jamming Session Architecture Department GMU Event Illustration Coordinator in Internal School Magazine

TIMELINE

COMPETITION TITLE: ACHIEVEMENT

WORKING EXPERIENCE

2020

Indonesia Arch Student Final Project National Competition 1st Winner Environmental Studies

2020

FuturArc Prize Asian Design Competition Merit Awards Student Category

2020

CTBUH International Student Tall Building Design Competition Top 10-Semi finalist

PT. Global Rancang Selaras Architectural Assistant Periode Waktu Durasi Pekerjaan Lokasi

Apr 2019 – Saat ini 1 thn 8 bln Yogyakarta , Indonesia

2018

Sleman District Rearrangement Design Competition 2nd Winner

2018

Bali, Sanur Fast Boat Crossing Dock National Design Competition Favourite Winner

Freelance 3D Visualization Periode Waktu Durasi Lokasi

Maret 2019- Saat ini 1 thn 6 bulan Yogyakarta

2018

STUCO National Spatial Design Competition Innovative Student Centre “University as Living Labs” Top 5

Design Alliance Workshop Intern Periode Waktu Durasi Pekerjaan Lokasi

Des 2018 – Feb 2019 3 bln Jakarta Selatan

CONTENTS

2

RIVER SPINE VERTICAL HOUSING

4

SKY MOTION RENTAL OFFICE

1

TERRA GANGLIA JAKARTA MASTERPLAN

6

DEWI SRI FARM FIELD DEVELOPMENT

3

GREENVENTURE VERTICAL HOUSING & MARKET

8

BEHAVE STUDY CENTER Z GEN-BASED STUDY CENTER

5

KARAKALINDA SANUR BALI’S CROSS DOCKING

10

VISUALIZATION PROJECT INDONESIA TOURISM

7

KARAKALINDA SANUR FAST BOAT CROSSING DOCK

9

PALU CHURCH PALU-DONGGALA

TERRA GANGLIA FUTURE JAKARTA MASTERPLAN| 2020 Status: Competition

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Country: Indonesia Country: Indonesia Country: Indonesia City: Jakarta City: Jakarta City: Jakarta Country: Indonesia City: Jakarta Country: Indonesia Country: Indonesia City: Jakarta Country: Indonesia City: Jakarta Country: Indonesia City: Jakarta Country: Indonesia City: Jakarta City: Jakarta

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CLE THE CLE THE CLE THE

TH TH TH

TERRA GANGLIA

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POPULATION OVERPOPULATION POPULATION

POPULATION

OVERPOPULATION RPOPULATION RPOPULATION SUBSIDENCE LAND SUBSIDENCE RPOPULATION SUBSIDENCE OVERPOPULATION SUBSIDENCE

LAND SUBSIDENCE D SUBSIDENCE DDSUBSIDENCE FLOOD DDSUBSIDENCE LAND SUBSIDENCE

D

FLOOD OD OD N WATER OD FLOOD CLEAN WATER N WATER

N WATER

CLEAN WATER AN WATER N, HOW? THEN, HOW? HOW? ANHOW? WATER THEN, THEN, HOW? N, AN WATER THEN, HOW? THEN, HOW? N, HOW? CLEAN WATER THEN, HOW?

THEN, HOW? THEN, HOW? THEN

THEN, HOW? N, HOW? HOW N, HOW? N, HOW? THEN, HOW?

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BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX based on singapore index impuls because water support biodiversity. The strategy of are req of biodiversity.

BIODIVERSITY INDEX Besides the four aspects of biodiversity, there’s biodiversity index ecosystem and increase the number The stra supportbrings biodiversity. water preservation new

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BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX

BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX BIODIVERSITY INDEX

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KAMPUNG MARUNDA : Accumulate, Spread, Restore KAMPUNG MARUNDA : WET KAMPUNG Accumulate, Spread, Restore MARUNDA :: KAMPUNG MARUNDA LAND WET Accumulate, Spread, Restore LAND Accumulate,Spread, Spread,Restore Restore WET Accumulate,

WET WET LAND

the abandoned area, humid, dirty, and unhealthy, meanwhile it is also one of there the biggest ecosystem that Basically are 2 characteristic of contain water that forest which functions as rich biodiversity after the ocean and rainforest. Intentionally constructing wetland with additional features of park,it is flows on the site. First, it spreads. Second, to create cool micro clim public space, and area for disposal, will enhance the image of wetland, while also preserve the water, create habiaccumulated point (due to of thewater topograBasically thereinto areone 2 characteristic that tat for many species, inviting community to come and learn throughflows spatial experience the importance of water phy). on Therefore design strategy, adapting the site.the First, it spreads. Second, it is preservation and to live coexist with flora-fauna could give environmental and well-being benefit. constructed wetland method, will be: accumulated into one point (due to the topograBasically there are 2 characteristic of water that Located in Cilincing district, North Jakarta, the site is a wetland area (marshes) in Kampung MarunDESIGN STRATEGY DESIGN STRATEGY phy). Therefore design strategy, adapting flows on the site.the First, it spreads. Second, it is da. This area is known for its difficulty of clean water access especially in dry season. Clean water, Basically therethere are 2 characteristic of water that Basically are 2 characteristic of water that constructed wetland method, will be: accumulated into one point (due to the topograwhich is supplied by PAM has slow flow rate and each houses should/would buy clean water from Located in Cilincing district, North Jakarta, the site is a wetland area (marshes) in Kampung Marunflowsflows on the First,First, it spreads. Second, it is it is on site. the site. it spreads. Terasering Bioswales phy). Therefore the design Second, strategy, adapting (carts seller liter per hari).ofThis area is also a lowland thatinisdry often affected tidal da. This areaberapa is known forgitu its difficulty clean water access especially season. Cleanbywater, accumulated into one (due(due to the accumulated into point one point totopograthe topograWetland constructed wetland method, will be: floods. wetland condition is surrounded bysite densely populated thewater character which isThe supplied bydistrict, PAM has slow flow rate and each houses should/would clean from Located in Cilincing North Jakarta, the is a wetland area settlements (marshes)buy inwith Kampung Marunphy).phy). Therefore the design strategy, adapting Therefore the design strategy, adapting Terasering Bioswales water Spread water of close, populist community. Marunda village itself has aastrong historical value because itby iswater, nota(carts seller berapa liter per hari).ofThis area is also lowland thatinisdry often affected tidal Accumulated da.a This area is known forgitu its difficulty clean water access especially season. Clean constructed wetland method, will be: constructed wetland method, will be: Open and maximize Wetland Located in Cilincing district, North Jakarta, the site is a wetland area (marshes) in Kampung MarunLocated in Cilincing district, North Jakarta, the site is a wetland area (marshes) in Kampung Marun> make it flow > being accumulated space for water ble as is Kampung Siby Pitung floods. The wetland condition ishero). surrounded by densely populated settlements thewater character which supplied PAM (local has slow flow rate and each houses should/would buywith clean from da. This area area is known for its of clean waterwater access especially in dry Clean water, da. This is known fordifficulty its difficulty of clean access especially inseason. dry season. Clean water, Terasering Bioswales Spread water Open and maximize of a close, Marunda village itself has aastrong historical is nota(carts sellerpopulist berapacommunity. liter gitu per hari). This area is also lowland that is value oftenbecause affecteditby tidal Accumulated water which is supplied by PAM has slow flow flow rate rate and each houses should/would buy clean waterwater fromfrom which is supplied by PAM has slow and each houses should/would buy clean Wetland Terasering Bioswales > make it flow > being accumulated space for water ble as Kampung Si Pitung (localishero). Terasering Bioswales floods. The wetland surrounded by adensely populated settlements with the character (carts(carts seller berapa liter liter gitucondition per hari). This area area is also lowland that that is often affected by tidal seller berapa gitu per hari). This is also a lowland is often affected by tidal After being processed, the water can be directly Wetland Wetland Spread water Open and maximize of a wetland close, populist community. Marunda village itself has a strong historical because it is nota- Accumulated water floods. The condition is surrounded by densely populated settlements withvalue the character floods. The wetland condition is surrounded by densely populated settlements with the character distributed for> being daily accumulated use of community in water > make it flow space for ble as Kampung Si Pitung (local hero). Accumulated water Spread waterwater and of a close, populist community. Marunda village itselfitself has ahas strong historical valuevalue because it is notaAccumulated water Spread and of a close, populist community. Marunda village a strong historical because it is notasurrounding, some of them isOpen stored/collected, After being processed, theOpen water canmaximize be maximize directly The existing area is an empty land which turns into wetland area > make it flow > being accumulated space for water ble as Kampung Si Pitung (local(local hero). > make it some flow > being accumulated space for water ble as Kampung Si Pitung hero). remains in the site for flora-fauna and act distributed for daily use of community in filled with wild-growing plants. The water tends to be brackish assome recreational element surrounding, of them is stored/collected, After being processed, the water can be directly due existing to the location in empty lowland, closed the sea, periodic The area is an land whichtoturns into and wetland area Habitat some remains the site for distributed forinwater daily use of in AfterAfter being processed, the can be directly being processed, the water canflora-fauna be community directlyand act tidal floods. filled with wild-growing plants. The water tends to be brackish as recreational element surrounding, some them is stored/collected, BIODIVERSITY BEFORE BIODIVERSITY BEFORE distributed for for dailydaily use ofof community in in distributed use of community due to the location in lowland, closed the sea, periodic The existing area is an empty land whichtoturns into and wetland area Habitat some remains in the site for flora-fauna and act surrounding, some of them is stored/collected, surrounding, some of them is stored/collected, tidal floods. witharea The water tends to bearea brackish The existing area iswild-growing an isempty landplants. which turnsturns into wetland area Thefilled existing an empty land which into wetland as for recreational element somesome remains in the flora-fauna and and act act remains in site the site for flora-fauna due to wild-growing the location in lowland, to and periodic filledfilled with wild-growing plants. The water tendstends tothe betosea, brackish with plants. The closed water be brackish Habitat as recreational element as recreational element Constructed wetland is designed tidal floods. due due to the in lowland, closed to the and periodic to location the location in lowland, closed to sea, the sea, and periodic Habitat Habitat the abandoned area, humid, dirty tidal tidal floods. floods.

DESIGN STRATEGY DESIGN STRATEGY

Without sufficient LAND LAND e number of biodirecycled but not ore. Water cycle are tem are one of the ater and ecosystem and ient rapid urbanizaodinot are the ficient tem biodiizat not le are rich biodiversity after the ocean a of the The high density and lack of adequate open space for the community encourWetland park made of terraced wetlands with retention pond on the lower ground. Lar This area also act as a natural filter where carbon is stored in public space, and areaand foract disposa ystem aged the idea of creating public spaces that were integrated with constructed scale of bioswale span across the site to maximize stormwater management as rec the sediment and dissolved whether in surface or groundwaanizatatwas forpond many species, inviting com wetlands. Public space in the form of nodes onthe thecommunity pedestrian encourpath as ational space the waterwetlands flows. The terraces based on geographic informati ter. But function offilter this where area iscarbon to control water The high density and lack of adequate openlocated space for Wetland park alongside made of terraced with retention on the lower ground. Lar This areathe alsomain act as a natural is stored in pects of biodiversity part of the wetland park is designed with selected vegetation as an urban and water flow analysis on thethe site. The wetlands are using gravity, passively filteri condition andand quality in every stage (each or level of the preservation and to live w aged the idea of creating public spaces that were integrated with constructed scale of bioswale span across site toterraces maximize stormwater management andcoexist act as rec the sediment dissolved whether in surface groundwacies, genetic, and wetlands. forest which functions as water absorption while maintaining air temperature water. Water treatment process which isThe based on different slopes are thematic and ha terraced wetlands) Public Space Sediment and Water Control Wetlands Park Public Space Sediment and Water Control Wetlands Park Public space in the form of nodes located on the pedestrian path as ational space alongside the water flows. terraces was based on geographic informati ter. But the main function of this area is to control water high density and lack of adequate open space for the community encourWetland park made of terraced wetlands with retention pond on the lower ground. Lar This area also act as a natural filter where carbon is stored in more diverse those The to create cool micro climate so the public spaces can be use comfortably. unique, different impressions each pixel. Wetland parkare alsousing act as a firsthand exposure of the wetland park is designed with vegetation as an urbanThis area and water analysis onwetlands thefor site. The terraces wetlands gravity, passively filteri condition in every stage (each level aged the idea of creating public spaces that were integrated withencourconstructed scale ofmade bioswale span across the site toretention maximize stormwater and act as rec the act sediment dissolved whether inissurface or groundwaThe high density and lack of adequate open space forselected the encourWetland park made of flow terraced wetlands with retention pond on the lower ground. Large aand natural filter filter where carbon stored in Thepart high density and lack of adequate open space forcommunity the community Wetland park ofwater terraced with pond onpeople the management lower Large This also area alsoasact asand a quality natural where carbon is stored in of the human on how is managed and being processed so are ground. encouraged toand be mo er biodiversity could forest which functions as water absorption while maintaining air temperature water. Water treatment process which is based on different slopes are thematic ha terraced wetlands) Public space in thespaces form nodes located on the pedestrian path asthe sediment space alongside water flows. The terraces was based geographic informati ter.and Butdissolved the dissolved mainwhether function of inthis area to control water agedaged thewetlands. idea creating public spaces thatof were integrated with constructed scalescale of bioswale span across the site to maximize stormwater management andon act asact recrein surface or groundwathe of idea of creating public that were integrated with constructed ofational bioswale span across thethe site to maximize stormwater management and as recrethe sediment and whether surface oris groundwaawarefortoeach preserve and wiser in using water. aspects fromwetlands. all wetlands. of part to create cool micro climate so the public spaces can be use comfortably. unique, different impressions pixel. Wetland park also act as a firsthand exposure Public space in theinform of located onselected the path path ational spacespace alongside the analysis water flows. Thesite. terraces was based on geographic main function of this area is tostage waterlevel ofPublic the wetland park is nodes designed with as anasurbanter. But and water flow on flows. the terraces are usinginformation gravity, passively filteri condition and quality (each space the form of nodes located onpedestrian thevegetation pedestrian ational alongside the water TheThe terraces waswetlands based on geographic information ter. the But the main function of in thisevery area iscontrol to control water of the m, because part more human on how water managed and being processed so people are encouraged toand be mo of the park is designed selected vegetation as anasurban and water flow analysis on treatment the terraces wetlands are using gravity, passively filtering condition and and quality in every stagestage (each level level of the part of wetland the wetland park isasdesigned with selected vegetation urban and water flowWater analysis onsite. theisThe site. The terraces wetlands are using gravity, passively filtering condition quality in terraced every (each of the forest which functions waterwith absorption while maintaining airantemperature water. process which is based on different slopes are thematic ha wetlands) aware to preserve and wiser in using water. there will beforest more rsity which functions as micro water absorption while maintaining air temperature water.water. WaterWater treatment process whichwhich is based on pixel. different slopes arealso thematic have terraced wetlands) forest which functions as water absorption while maintaining airuse temperature treatment process based on different slopes areact thematic and have terraced wetlands) to create cool climate so the public spaces can be comfortably. unique, different impressions foris each Wetland park asand a firsthand exposure species. That’sto why create cool micro climate so the spaces can be unique, different impressions for each pixel.pixel. Wetland parkprocessed also act a firsthand exposure to to and to create cool micro climate sopublic the public spaces canuse becomfortably. use comfortably. unique, different each park alsoasact as a firsthand exposure human onimpressions how water isformanaged andWetland being so people are encouraged to be mo human on how is managed and being processed soand people are more human on water how water is managed and being processed sowiser people are encouraged be more aware to preserve inencouraged using water.to beto eose choose water as awareaware to preserve and wiser in using water.water. to preserve and wiser in using ater are required to ould ity. l ofThe strategy of ersity brings new ion more ,crease and the number more those why could r as dalltoof ymore of more new sber why These terraced wetlands slowing down the er as water and speed nutrient removal from th ed to by microorganism and slowing plant species th These terraced wetlands down the Constructed wetland is designed to maximize water treatment on the existing wetland. Wetland mostly seen as excess nutrients as resources for their grow gy of water and speed nutrient removal from th biodiversitythe index abandoned area, humid, dirty, and unhealthy, meanwhile it is also one of the biggest ecosystem that contain new by microorganism and slowing plant species th These terraced wetlands down the We take some part rich biodiversity after the ocean and constructing wetland with additional of park, Constructed wetland is designed to rainforest. maximize Intentionally water treatment on the existing wetland. Wetlandfeatures mostly seen as TheseThese terraced wetlands slowing down the flow of terraced wetlands slowing down thetheir flow of mber excess nutrients as resources for grow water and speed nutrient removal from th valuate our design public space, and area forAFTER disposal, will unhealthy, enhance the image of itwetland, while preserveecosystem the water, that create habithe abandoned area, humid, dirty, and meanwhile is also one of also the biggest contain waterwater and speed nutrient removal from from the water and speed nutrient removal the water BIODIVERSITY AFTER BIODIVERSITY by microorganism and plant species th e the biodiversity. tat for many species, inviting community to come and learnconstructing through spatial experience the importance of by microorganism and and plantplant species that that use use by microorganism species rich biodiversity after the ocean and rainforest. Intentionally wetland with additional features ofwater park, Constructed wetland is designed to maximize water treatment on the existing wetland. Wetland mostly seen as Constructed wetland is designed to maximize water treatment on the existing wetland. Wetland mostly seen as excess nutrients as resources for their grow Constructed wetland is designed to maximize water treatment on the existing wetland. Wetland mostly seen as diversity and be aspace,and excess nutrients as resources for their growth. excess nutrients as resources for their growth. preservation to live coexist withwill flora-fauna could give environmental andalso well-being public and area for disposal, enhance the image ofone while preservebenefit. the create habiabandoned area, humid, dirty, unhealthy, meanwhile itwetland, is also one the biggest ecosystem that contain the abandoned area,area, humid, dirty, and unhealthy, meanwhile it is also of the biggest ecosystem thatwater, contain thethe abandoned humid, dirty, andand unhealthy, meanwhile it is also one of theofbiggest ecosystem that contain for many inviting community toIntentionally come and learn through spatial experience thefeatures importance of rich biodiversity ocean and rainforest. Intentionally constructing wetland with additional ofwater park, afterspecies, theafter ocean and rainforest. Intentionally constructing wetland with additional features offeatures park, richtat biodiversity after the the ocean and rainforest. constructing wetland with additional of park, ex rich biodiversity preservation and to live coexist with flora-fauna could give environmental and well-being benefit. public space, and area for disposal, will enhance the image of wetland, while also preserve the water, create habispace, and area for disposal, will enhance the image of wetland, whilewhile also also preserve the water, create habi-habipublic space, and area for disposal, will enhance the image of wetland, preserve the water, create art public tat for many species, inviting community to come and learn through spatial experience the importance of water tat for many species, inviting community to come and learn through spatial experience the importance of water tat for many species, inviting community to come and learn through spatial experience the importance of water gn area ofpreservation parks and to live coexist with flora-fauna could give environmental and well-being benefit. preservation live with with flora-fauna couldcould give give environmental and well-being benefit. preservation and to coexist live coexist flora-fauna environmental and well-being benefit. with natural and to ty. area ea dex part sign connectuvty measure sity. s

SITY

BIODIVERSITY BEFORE BIODIVERSITY BEFORE BIODIVERSITY BEFORE

BIODIVERSITY AFTER

Public Space

Sediment and Water Control

Wetlands Park

Public Space

Sediment and Water Control

Wetlands Park

Public Space

Sediment and Water Control

Wetlands Park

BIODIVERSITY AFTER BIODIVERSITY AFTER BIODIVERSITY AFTER

[Student], [Jakarta], [S_223442] new habitat for other species. There are also raingardens to create more water catchment

WETLANDS, ter absorption while maintaining airRIVER, temperature:LAKE terraced wetlands) DESIGN STRATEGY [Student], [Jakarta], [S_223442] [Student], [Jakarta], [S_223442] e so the public spaces can be use comfortably. Our design strategy is RIVER, WATER IMPULS, wich we restore and improve aquatic WETLANDS, DESIGN STRATEGY :LAKE ecosystem to preserve more water and reach higher biodiversity number. In other RAINGARDENS hand, we want to restore Jakarta’sIMPULS, ecological identity as wetlands area. We aquatic choose Our design strategy is:RIVER, WATER wich we restore and improve ESIGN STRATEGY WETLANDS, LAKE DESIGN STRATEGY : three aspects of Jakarta aquatic ecosystem : wetlands, river, and lake. ecosystem to preserve more water and reach higher biodiversity number. In Every other aspects itRIVER, strategies toIMPULS, water preservation increase WETLANDS, RIVER, WETLANDS, LAKE hand, wehas want toown restore Jakarta’s ecological identity as and wetlands area.biodiversity We aquatic choose Our design strategy isLAKE WATER wich we restore and improve number. three aspects of Jakarta aquatic ecosystem : wetlands, river, number. and lake. ecosystem to preserve more water and reach higher biodiversity In Every other r Our design strategy is WATER IMPULS, wichwich we restore and and improve aquatic design strategy is WATER IMPULS, we restore improve aquatic aspects strategies to water preservation and increase biodiversity hand, wehas wantit toown restore Jakarta’s ecological identity as wetlands area. We choose WATER CATCHMENT WETLANDS osystem to preserve moremore waterwater and reach higher biodiversity number. In other ecosystem to preserve and reach higher biodiversity number. In other number. three aspects of Jakarta aquatic ecosystem : wetlands, river, and lake. Every AREA nd, we want to restore Jakarta’s ecological identity as wetlands area.area. We choose hand, we want to restore Jakarta’s ecological identity as wetlands We choose aspects has it own strategies to water preservation and increase biodiversity WETLANDS inaquatic Jakarta ecosystem are mostlyWETLANDS consist neglected empty landsEvery with huge amount of eethree aspects of Jakarta : wetlands, river,river, and and lake. aspects of Jakarta aquatic ecosystem : of wetlands, lake. Every number. water resource. It also contains huge amount of municipal waste such as plastic bag and pects has it own strategies to water preservation and increase biodiversity

water. Water treatment process which is based on different slopes are thematic and have unique, different impressions for each pixel. Wetland park also act as a firsthand exposure to human on how water is managed and being processed so people are encouraged to be more aware to preserve an d wiser in using water.

area.

NEW HABITAT

aspects has it own strategies to water preservation and increase biodiversity other unbiodegredable waste. Restoration landscape arrangement in Jakarta are mostly consist ofstrategies neglectedincludes empty lands with huge amount to of mber. number. WETLANDScreate more public spaces and water catchment and filtering area.

WETLANDS WETLANDS WETLANDS

water resource. It also contains huge amount of municipal waste such as plastic bag and other unbiodegredable waste. Restoration landscape arrangement WETLANDS in Jakarta are mostly consist ofstrategies neglectedincludes empty lands with huge amount to of create morecontains public spaces and water catchmentwaste and filtering water resource. It also huge amount of municipal such asarea. plastic bag and TLANDS in Jakarta are mostly consist of neglected empty landslands with huge amount of of WETLANDS in Jakarta are mostly consist of neglected empty with huge amount PUBLIC SPACE other unbiodegredable waste. Restoration strategies includes landscape arrangement to erwater resource. It alsoIt contains hugehuge amount of municipal wastewaste such such as plastic bag and resource. also contains amount of municipal as plastic bag and create more public spacesincludes and water catchment and filtering erother unbiodegredable waste. Restoration strategies landscape arrangement to area. unbiodegredable waste. Restoration strategies includes landscape arrangement to PUBLIC SPACE create moremore public spaces and water catchment and filtering area.area. create public spaces and water catchment and filtering Only 5,7% clean

Before

SPACE WATERPUBLIC CATCHMENT AREA PUBLIC SPACE PUBLIC SPACE WATER CATCHMENT water treatment on the existing AREA

WETLAND PARK

water are produced from Jakarta water resource

After Increase quantity of clean water production from Jakarta water resource

These terraced wetlands slowing down the flow of water and speed nutrient removal from the water by microorganism and plant species that use excess nutrients as resources for their growth.

maximize wetland. Wetland mostly seen as WETLAND PARK nd unhealthy, meanwhile it is also one of the biggest ecosystem that contain WATER CATCHMENT rainforest. Intentionally constructing wetland with additional features of park, AREA CLEAN WATER WETLAND PARK WATER CATCHMENT WATER CATCHMENT will enhance the image of wetland, while also preserve the water, create habi AREAAREA CLEAN WATER PRESERVATION TARGET WETLAND PARKPARK WETLAND PRESERVATION TARGET RIVER the importance of water unity to come and learn through spatial experience flora-fauna could environmental and well-being benefit. quantity of Almost allgive of Jakarta natural landsccapes alongside the RIVER are already gone. There are

RIVER

many obstacles that lead to this conditions, one of them is high density of settlement alongside theJakarta river. This alsolandsccapes leads to increasing number of slum area and flooding. Almost all of natural alongside the RIVER are already gone. ThereOur are strategies is to restore the natural landscape of the river, along with the species and encourmany obstacles that lead to this conditions, one of them is high density of settlement agealso human to to liveincreasing together with other alongside theJakarta river. This leads number ofspecies. slum area and flooding. Almost all of natural landsccapes alongside the RIVER are already gone. ThereOur are strategies is to restore the natural landscape of the river, along with the species and encourmost all of all Jakarta natural landsccapes the RIVER are gone. There are are Almost of Jakarta natural landsccapes alongside the RIVER are already There many obstacles that leadalongside to this conditions, onealready of them is gone. high density of settlement age human live together other species. nymany obstacles that lead to this conditions, onetoof them is high density settlement obstacles that the lead toHOUSING this conditions, one of them iswith high density of area settlement alongside river. This also leads to increasing number ofof slum and flooding. Our ngside the river. This also leads to increasing number of slum area and flooding. alongside strategies the river. This leads increasing number of slum and flooding. Our and encouris to also restore thetonatural landscape of the river,area along with theOur species tegies is to restore the natural landscape of theof river, along with with the and encourstrategies is to restore the natural landscape the along withspecies the species and encourage human to liveriver, together other species. HOUSING age human to livetotogether with other species. age human live together with other species.

RIVER RIVER RIVER

WATER CATCHMENT AREA HOUSING HOUSING HOUSING WATER CATCHMENT AREA

WATER CATCHMENT WATER CATCHMENT WATER CATCHMENTAREA AREA AREA

LANDSCAPE RESTORATION LANDSCAPE RESTORATION LANDSCAPE LANDSCAPE LANDSCAPE RESTORATION RESTORATION RESTORATION

LAKE

w of ater wuse of

LAKE

There are several LAKE in Jakarta but none of them get serious treatment as biggest water catchment area. Such negligance leads to flooding and water pollution. Lake has biggest potential biodiversity the design strategies are includes preserve and create There are of several LAKE innumber Jakartaso but none of them get serious treatment as biggest water ater new habitat for other species. There are also raingardens to create more water catchment catchment area. Such negligance leads to flooding and water pollution. Lake has biggest use w of area.strategies are includes preserve and create potential biodiversity the design There are of several LAKE innumber Jakartaso but none of them get serious treatment as biggest water aterare several ere LAKE in Jakarta but none of them get serious treatment as waterwater There are several LAKE in Jakarta but none of them get serious treatment as biggest new habitat for other species. There are also raingardens tobiggest create more waterhas catchment catchment area. Such negligance leads to flooding and water pollution. Lake biggest use chment area.area. Such Such negligance leadsleads to flooding and water pollution. Lake has biggest catchment negligance to flooding and water pollution. Lake has biggest area.strategies are includes preserve potential of biodiversity number so the design and create ential of biodiversity number so the strategies are includes preserve and create potential of biodiversity number sodesign the design strategies are includes preserve and create RAINGARDENS new habitat for other species. There are also raingardens to create more water catchment w habitat for other species. ThereThere are also to create moremore waterwater catchment new habitat for other species. are raingardens also raingardens to create catchment area. area.area.

LAKE LAKE LAKE

RAINGARDENS

RAINGARDENS RAINGARDENS RAINGARDENS WATER CATCHMENT AREA

WATER CATCHMENT AREA WATER CATCHMENT WATER CATCHMENT WATER CATCHMENT AREA AREA AREA

NEW HABITAT NEW HABITAT NEW HABITAT NEW NEW HABITAT HABITAT

quantity of water water

2/4

KAMPUNG PULO :: KAMPUNG PULO Live Within the Water KAMPUNG PULO : Live Within the Water KAMPUNG PULO : KAMPUNG PULO :: Live Within the Water KAMPUNG PULO KAMPUNG PULO : Live Within the Water KAMPUNG PULO : KAMPUNG PULO : KAMPUNG PULO : Live Within the Water KAMPUNG PULO : KAMPUNG PULO : Live Within the Water KAMPUNG PULO : KAMPUNG PULO : Live Within the Water KAMPUNG PULO : Live Within the Water Live Within the Water

PROJECT PROJECTVISION VISION PROJECT PROJECTVISION VISION

animal stall strategy and open space inHouses the neighborhood so that while, when flood the upper spacePublic will be active as as an The design can be replicated in settlements which exist around the body of the river. condition often consid each other. are redesigned by adapting existing Space l of Jakarta natural landsccapes alongside the RIVER are already gone. There areoccurs, as an The animal stall strategy and open space inHouses theThe neighborhood soarea that a connecting path. existing house has simple form withforms, micro and to This each other. are redesigned byaadapting existing forms, design can be replicated in settlements area which exist around thesize body ofstick the river. This condition often consi Public Space humans and animals can live side by side in one ecosystem. a connecting path. The existing house has a simple form with micro size and stick to stilla live using rectangular floor plan as the strategy most efficient The the as dirty and unfit for metropolitan city. Therefore, if the is applied along river’sforms, body in Jakarta, it becomes a sol humans and animals side by side in other. one ecosystem. stacles that lead to this conditions, one of them is high density of settlement each Houses redesigned byplan. adapting Public Space stilla metropolitan using rectangular floor plan as most efficient plan. The existing Surrounding settlements are designed with addition asthe dirty and unfit can for city. Therefore, if are the strategy is applied along the river’sforms, body in Jakarta, it becomes a so each other. Houses are redesigned by adapting existing Public Space highly dense ofproblems residential conditions results the lackthe of natural Surrounding settlements are designed with the addition The design strategy can be replicated in settlements area which exist around the body of the river. This condition often consid for flood or any overflowing river because it transforms slums area into abundant water reserves. In addition, this st still using rectangular floor plan as most efficient plan. The e the river. This also leads increasing number slum area and flooding. Our along the The siteto is in an area with highofdensity population, located riverbank, and prone to drain highly dense of residential conditions results the lack of natural multilevel path/track which functions as a public space. This The design strategy can be replicated in settlements area which exist around the body of the river. reserves. This condition often consi for flood or any overflowing river problems because it transforms slums area into abundant water In addition, this still using rectangular floor plan as theform most efficient plan. The Surrounding settlements are designed with the addition lighting in each house. To solve this problem, angular of multilevel path/track which functions as a public space. This The site is in an area with high density population, located along the riverbank, and prone to drain as dirty and unfit for a metropolitan city. Therefore, if the strategy is applied along the river’s body in Jakarta, it becomes a sol gy also creates productive space for human and animal activities, regenerates the life of biodiversity. highly dense of residential conditions results the lack of natural Surrounding settlements are designed with the addition PROJECT VISION lighting in each house. To solve this problem, angular form of space is flexible, can be used as a community center for s is to restore the natural landscape of the river, along with the species and encour as dirty and unfit for a metropolitan city. Therefore, if the strategy is applied along the river’s body in Jakarta, it becomes a so flooding from October to February. When heavy rains occur, water ratemultilevel and volume willa which gy also creates productive space for human andof animal activities, regenerates the lifeofof biodiversity. highly dense residential conditions results lack of natural path/track functions asstrategy aPROJECT public space. VISION The design can be replicated settlements which exist around the body the river. This condition often consid facade is This created to in maximize sunlight. Meanwhile, inproblem, order tothe spaceflow is flexible, can be used as community center for PROJECT VISION for flood or any overflowing river problems because itarea transforms slums area into abundant water reserves. In addition, this st flooding from October to February. When heavy rains along occur,the water flow rate and volume will lighting in each house. To solve this angular form of multilevel path/track which functions as a public space. This PROJECT VISION The design strategy can be replicated in settlements area which exist around the body of the river. This condition often consi facade is created to maximize sunlight. Meanwhile, in order to waste management, or gathering activities. 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Therefore, ifincrease the strategy is applied along the river’s body inconsidered Jakarta, it becomes overcome the floods which every year, the lower floors is reserves. management, or gathering activities. The lower benefits for residents who lives around. The design strategy can be replicated in settlements area which around the body of the river. This condition often The site is in an area high density population, located riverbank, and prone to drain being lifted, stilt house design. The lower space functions while, when flood occurs, the upper space will be active as Ciliwung River will be flooded with mud and overflow. PROJECT VISION PROJECT VISION The design strategy can be replicated in settlements area which exist around the body of the river. This condition often considered for flood or any overflowing problems because it transforms slums area into abundant water reserves. In addition, this as dirty and unfit for a metropolitan city. Therefore, if the strategy is applied along the river’s body in Jakarta, it becomes overcome the floods which increase every year, the lower floors is ground space will be used in normal/dry conditions. MeanThe design strategy can be replicated in settlements area which exist around the body of the river. This condition often considered benefits for residents who lives around. increase, sointhat the with Kampung Pulo area within alocated radius along of 100the meters from the banks of the The existing house has a simple form with micro size and stick to The site is an area high density population, riverbank, and prone to drain as an animal stall and open space instilt the so that while, when floodground occurs,space the upper will be active as as dirty and unfit for aproductive metropolitan city. 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When heavy occur, water flow rate and volume will increase, that the Kampung Pulo area within amanagement, radius of 100 meters from theprone banks of the increase, so that the Kampung Pulo area within arains radius of 100 meters from the banks ofof the benefits for residents who lives around. the design strategies are :river AREA The houses are sticked towith each other’s wall and the alleyways are narrow. The sewer for drainage as dirty and unfit for alives metropolitan city. Therefore, iflower is applied along the river’s body in Jakarta, becomes acatchment solution Rain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provide increase, so that the Kampung Pulo area within radius of 100 meters from the banks the The site is so in an area high density population, located along the riverbank, and to drain LANDSCAPE area and to filter the stormwater so ithousing’s could be when itThe has high flow rate and volume. The condition of rivers and streets around settlements tend for flood or any overflowing river problems because itthe transforms slums into abundant water reserves. Init addition, this stratefor residents who around. overcome the floods which increase every year, the floors is waste management, or gathering activities. The lower Rain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provide Rain gardens and space houses’ lower ground functions as water catchment area as well as space for other fauna that provide Create aarea connection Design water Lift elev In the site, water comes from 2 sources: the flow of increase, so that the Kampung Pulo area within aaspace radius of 100 meters from the banks of the increase, so that the Kampung Pulo area within aa radius of 100 meters from the banks ofbenefits the the design strategies are :in RIVERS as dirty and unfit for alives metropolitan city. Therefore, iflower strategy is applied along the river’s body in Jakarta, becomes acould solution The houses are sticked to each other’s wall and the alleyways are narrow. The sewer for drainage Rain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provid increase, so that the Kampung Pulo area within radius of 100 meters from the banks of the site is in an area with high density population, located along the riverbank, and prone to drain Ciliwung River will be flooded with mud and overflow. area and to filter the stormwater so it be gy also creates productive space for human and animal activities, regenerates the life of biodiversity. when it has high flow rate and volume. The condition of rivers and streets around settlements tend every year, the floors is overcome the floods which increase BEFORE BIODIVERSITY DESIGN STRATEGY The design strategy can be replicated in settlements area which exist around the body of the river. This condition often considered ground will be used in normal/dry conditions. MeanRain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provide Rain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provid to the river absorption zones in to anticipate floo rivers that overflow during floods and rain water. So, Rain gardens and space in houses’ lower ground functions as water catchment area as well as space for other fauna that provide RIVERS for flood or any overflowing river problems because it transforms slums area into abundant water reserves. In addition, this stratebenefits for residents who lives around. increase, so thathave the Kampung Pulo area within aspace radius 100 meters from the banks of the The Ciliwung River will be flooded with mud and overflow. Ciliwung River will be flooded with mud and overflow. RESTORATION are available but they small dimension and insufficient toof collect and transport rainwater Ciliwung River will be flooded with mud and overflow. restored aszones clean water. flooding from October to February. When heavy rains occur, water flow rate and volume will gy also creates productive space for human and animal activities, regenerates the life of biodiversity. being lifted, create stilt house design. The lower space functions BEFORE BIODIVERSITY DESIGN STRATEGY design strategy can be replicated in settlements area which exist around the body of the river. This condition often considered ground will be used in normal/dry conditions. 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BEFORE BIODIVERSITY DESIGN STRATEGY Ciliwung River will be flooded with mud and overflow. are available but they have small dimension and insufficient to collect and transport rainwater restored as clean water. flooding from October to February. When heavy rains occur, water flow rate and volume will RIVERS In the site, water comes from 2 sources: the flow of being lifted, create stilt house design. The lower space functions as dirty and unfit for a metropolitan city. Therefore, if the strategy is applied along the river’s body in Jakarta, it becomes a solution while, when flood occurs, the upper space will be active as The houses are sticked to each other’s wall and the alleyways are narrow. The sewer for drainage The site is in an area with high density population, located along the riverbank, and prone to drain benefits for residents who lives around. benefits for residents who lives around. 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IVERS RIVERS IVERS RIVERS IVERS RIVERS

Live Within the Water Live Within the Water KAMPUNG PULO : Live Within the Water BEFORE BIODIVERSITY KAMPUNG PULO : BEFORE BIODIVERSITY Live Within the Water Live Within the Water KAMPUNG PULO : Live Within the Water Live Within the Water KAMPUNG PULO : BEFORE BIODIVERSITY Live Within the Water BEFORE BIODIVERSITY KAMPUNG PULO :: KAMPUNG PULO Live Within the Water Live Within the Water BEFORE BIODIVERSITY BEFORE BIODIVERSITY Live Within the Water Live Within the Water Live Live Within Within the the Water Water

LOWER LOWERSPACE SPACE UPPER UPPERSPACE SPACE

LOWER LOWERSPACE SPAC LOWE LOWE

DESIGN DESIGNSTRATEGY STRATEGY DESIGN DESIGNSTRATEGY STRATEGY DESIGN DESIGNSTRATEGY STRATEGY

LOWER LOWERSPACE SPACE

LAKE

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RAINGARDENS

UPPER UPPERSPACE SPACE UPPER UPPERSPACE SPACE UPPER SPACE UPPER SPACE UPPER SPACE UPPER SPACE UPPER SPACE UPPER SPACE UPPER SPACE UPPER SPACE

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LOWER LOWERSPACE SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE

restored as clean water. restored as clean water.

FLOODING SCENARIO FLOODING SCENAR FLOODING SCENARIO FLOODING SCENAR FLOODING SCENA FLOODING SCEN FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENAR FLOODING SCENARIO FLOODING SCENARIO

FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO Cow ChickenSCENARIO Dog Goat FLOODING Cow ChickenSCENARIO Dog Goat FLOODING SCENARIO PHASE 1 Cow PHASE 2 PHASE 3 Dog Chicken GoatFLOODING SCENARIO Cow Cow DogDog GoatFLOODING Chicken Goat Chicken Cow Chicken Dog Goat Cow Chicken Dog Goat Cow Chicken Dog Goat Dog Cow Cow Chicken Chicken Dog Goat Goat Cow Chicken Dog Goat Cow Chicken Dog Goat Cow Chicken Dog Goat Chicken CowCow GoatGoat Chicken Dog Cow Chicken Dog Dog Goat Chicken Cow Dog Goat Chicken Goat CowCow Chicken DogDog Goat Cow Chicken Dog Goat

LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER SPACE LOWER LOWERSPACE SPACE Raingardens LOWER Raingardens LOWERSPACE SPACE Raingardens created Raingardens to expand water catchment area and toRaingardens filter the stormwater so it could be Raingardens Raingardens area and to filter the created stormwater so it could be Raingardens Raingardens Raingardens towater expand water catchment Raingardens created to expand catchment Raingardens restored as clean water. Raingardens Raingardens created towater expand water catchment Raingardens created to expand catchment restored as clean water. Raingardens Raingardens created to expand water catchment and to stormwater filterwater the stormwater so it could be Raingardens to expand catchment NORMAL WATER LEVEL SCENARIO area created and toarea filter the so it could Raingardens Raingardens created to expand catchment Raingardens area and towater filter the stormwater sobe it Raingardens Raingardens Raingardens created to expand water catchment NORMAL WATER LEVEL SCENARIO area and to filter the stormwater so it could becould be Raingardens area and to filter the stormwater so itas could be Raingardens created to expand water catchment restored clean water. Raingardens Raingardens area and to filter the stormwater so it could be restored as clean water. area and to filter the stormwater so it could be Raingardens created expand water catchment NORMAL WATER LEVEL SCENARIO restored as clean water. Raingardens created to expand water catchment area Raingardens and to filter the stormwater so it could be Raingardens created to expand water catchment Raingardens created to expand water restored as clean water. restored as clean water. Raingardens created to expand water catchment NORMAL WATER LEVEL SCENARIO area and to filter stormwater so ititcatchment could be restored as clean water. Raingardens created to expand water catchment Raingardens created to expand water catchment restored asthe clean water. Raingardens created to expand water catchment area and to filter the stormwater so could be area and to filter the stormwater so it could be restored as clean water. area and toand filter the stormwater so itso could be be area and to filter the stormwater it itcould Raingardens created to expand water catchment area to filter the stormwater so could be Raingardens restored as clean water. area and to filter the stormwater so it could be area and to filter the stormwater so it could be area and torestored filter the stormwater so it could be restored as clean water. Raingardens restored asasclean clean water. asexpand clean water. restored as water. area andRaingardens to filter the stormwater so it could be restored clean water. Raingardens created to water catchment restored as clean water. restored as clean water. restored asexpand clean water. Raingardens created to water catchment Raingardens restored as clean water. area and to filter theto stormwater so itcatchment could be Raingardens created expand water

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After

Before

in the neighborhoos so that humans and animals can live side by side in one ecosystem.

CLEAN WATER PRESERVATION TARGET

HIGHER WATER LEVEL SCENARIO HIGHER WATER LEVEL SCENARI HIGHER WATER LEV HIGHER WATER LE

Raingardens Raingardens

quantity of water

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2/4

HIGHER WATER LEVEL SCENARIO HIGHER WATER LEVEL SCENARIO

RIVER

[Student], [Jakarta], [S_223442] SPECIES SPECIES cause of today’s loss of biodiversity is[Student], habitat alteration caused [S_223442] by human activities. This [Jakarta], [Student], [S_223442] [Student], [Jakarta], [S_223442] SPECIES cause of today’s loss of biodiversity is[Student], habitat [Jakarta], alteration caused by human activities. This [Student], [Jakarta], [S_223442] [Student], [Jakarta], [Jakarta], [S_223442] SPECIES Why we responsibility should care about species diversity? The answer lies[S_223442] in the fact that, primary [Student], [Jakarta], [S_223442] was our to restore the natural habitat for species. Jakarta was the a wetlands Whyour we responsibility should care about species diversity? The answer lies [S_223442] in the fact that, primary [Student], [Jakarta], was to restore the natural habitat for species. Jakarta was the a wetlands

FLOODING SCENARIO [Jakarta], [S_223442] should care about species diversity? The answer lies in the fact that, the primary Chicken Dog [Student], Goat Why we [Student], [Jakarta], [S_223442] FLOODING [Jakarta], [S_223442] should care about species diversity? The answer liesSCENARIO in the fact that, the primary Chicken Dog [Student], Goat Why we

SPECIES cause of today’s loss of biodiversity is habitat alteration caused human activities. This area before mass urban development happens and turns the by natural landscapes into SPECIES cause ofshould today’s loss of biodiversity is habitat alteration caused by human activities. This area before mass urban development happens and turns thethe natural landscapes into PECIES [Student], [Jakarta], [S_223442] Why we care about species diversity? The answer lies in fact that, the primary ECIES was our responsibility to restore the natural habitat for species. Jakarta was a wetlands concrete forest. The design strategy start from restore the aquatic ecosystem, wich also PECIES [Student], [Jakarta], [S_223442] Why we should care about species diversity? The answer lies in the fact that, the primary ECIES was our responsibility to restore the natural habitat for species. Jakarta was a wetlands concrete forest.loss Theofdesign strategy start from restore the aquatic ecosystem, wich also cause of today’s biodiversity is habitat alteration caused by human activities. This [Student], [Jakarta], [S_223442] area before massloss urban development happens and turns the landscapes into Why wetoday’s should care about species The answer lies in thenatural fact that, the primary restore and increase the number of diversity? species there. Some species, especially plants, also SPECIES cause of of biodiversity isspecies habitat alteration caused by human activities. This [Student], [Jakarta], [S_223442] SPECIES SPECIES Why we should about species The answer lies in the fact that, the primary area before masscare urban development happens and turns the natural landscapes into RIVER restore and increase the number of diversity? there. Some species, especially plants, also SPECIES was our responsibility to restore the natural habitat for species. Jakarta was a wetlands yewe should care about species diversity? The answer lies in the fact that, the primary RIVER SPECIES SPECIES FLOODING SCENARIO cause of today’s loss of biodiversity is habitat alteration caused by human activities. This concrete forest. The design strategy start from restore the aquatic ecosystem, wich also should care about species diversity? The answer lies in the fact that, the primary contribute in carbon storage and cooling effect of the environment. Meanwhile other hy we should care about species diversity? The answer lies in the fact that, the primary was our responsibility to restore the natural habitat for species. Jakarta was a wetlands FLOODING SCENARIO cause of today’s loss of development biodiversity isstart habitat alteration caused by human activities. This SPECIES concrete forest. The design strategy from restore the aquatic ecosystem, wich also we should care about species diversity? The answer lies ineffect the fact that, thethe primary contribute in carbon storage and cooling offor the environment. Meanwhile other [Student], [Jakarta], [S_223442] e of today’s loss of biodiversity is habitat alteration caused by human activities. This CARBON area before mass urban happens and turns natural landscapes into Cow Chicken Dog Goat was our responsibility to restore the natural habitat species. Jakarta was a wetlands ofsetoday’s loss ofCow biodiversity isGoat habitat alteration caused by human activities. This restore and increase the number ofthe species there. Some species, especially species such as farm animals and agricultural plants are supporting the human life. also [Student], [Jakarta], [S_223442] of today’s loss of biodiversity is habitat alteration caused by human activities. This CARBONSTORAGE STORAGE area before mass urban development happens and turns the natural landscapes into Why we should care about species diversity? 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The design strategy start from restore the aquatic ecosystem, wich also area before mass urban development happens and turns the natural landscapes into rWhy responsibility to restore the natural habitat for species. Jakarta was a wetlands contribute in carbon storage and cooling effect of the environment. Meanwhile other VEGETATION we should care about species diversity? The answer lies in the fact that, the primary Why we should care about species diversity? The answer lies in the fact that, the primary sur our responsibility to restore the natural habitat for species. Jakarta was a wetlands Cow Chicken Dog Goat Why we should care about species diversity? The answer lies in the fact that, the primary SPECIES cause of today’s loss of biodiversity is habitat alteration caused by human activities. This concrete forest. The design strategy start from restore the aquatic ecosystem, wich also area before mass urban development happens and turns the natural landscapes into responsibility to restore the natural habitat for species. Jakarta was a activities. wetlands VEGETATION in storage and cooling effect of the environment. Meanwhile other ause of today’s loss of biodiversity ishappens habitat alteration caused by human This cause ofcontribute today’s loss ofcarbon biodiversity isstrategy alteration caused by human activities. This before mass urban development and turns the natural landscapes into Cow Chicken Dog Goat Why we should care about species diversity? The answer lies in the fact that, the primary CE cause of today’s loss of biodiversity ishabitat habitat alteration caused by human activities. This restore and increase the number of species there. Some species, especially plants, also concrete forest. 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WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS

Before Before

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ardens gardens

ARIO NARIO

ARIO ARIO

LAKE LAKE

RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER

CARBON CARBONSTORAGE STORAGE VEGETATION VEGETATION Before Before

LAKE LAKE

INCREASE INCREASEOF OF SPECIES NUMBER SPECIES NUMBER

After After

Before Before

Carbon storage by Carbon storage by plant decrease plant decrease number of number of pollution pollution

Species are limited Species areplaces limited only in some only in some places

3/4 3/4

After

IncreaseAfter in number Increase in number of species of species

CARBON INCREASE CARBONSTORAGE STORAGE INCREASEOF OF CARBON STORAGE INCREASE VEGETATION SPECIES NUMBER CARBON STORAGE SPECIES NUMBER INCREASEOF OF VEGETATION VEGETATION SPECIES NUMBER VEGETATION SPECIES NUMBER

High polluted air, water, High air, water, and polluted environment and environment

High polluted air, water, High air, water, and polluted environment and environment

CARBON CARBONSTORAGE STORAGE VEGETATION VEGETATION Before Before

LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE FLOODING SCENARIO

High polluted air, water, High air, water, and polluted environment and environment

LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE LAKE

After After Carbon storage by

Carbon storage by plant decrease plant decrease number of number of pollution pollution

Before Carbon storage by plant decrease Before plant decrease number of

Before Before

Species are limited After Species areplaces limited only in some After Carbon storage only in by some places Carbon storage by plant decrease plant decrease number of number of pollution pollution

INCREASE INCREASEOF OF SPECIES NUMBER SPECIES NUMBER

number of High polluted air,pollution water, High air,pollution water, and polluted environment and environment

After IncreaseAfter in number Before Increase in number of species Before of species

Species are limited Species areplaces limited only in some only in some places

After

IncreaseAfter in number Increase in number of species of species

BIODIVERSITY INDEX BIODIVERSITY INDEXTARGET TARGET BeforeBIODIVERSITY AfterINDEX TARGET BeforeBIODIVERSITY AfterINDEX TARGET Species are limited Species areplaces limited only in some only in some places

3/4 3/4

Increase in number Increase in number of species of species

BIODIVERSITY INDEX INDEXTARGET TARGET

BIODIVERSITY FLOODING SCENARIO FLOODING SCENARIO FLOODING SCENARIO

FLOODING SCENARIO FLOODING SCENARIO

After

IncreaseAfter in number Increase in number of species of species

LAKE LAKE

BIODIVERSITY TARGET Before INDEX After BIODIVERSITY TARGET Before INDEX Carbon After storage by

FLOODING SCENARIO FLOODING SCENARIO

Before Before

Species are limited Species areplaces limited only in some only in some places

BIODIVERSITY BIODIVERSITYINDEX INDEXTARGET TARGET

FLOODING SCENARIO FLOODING SCENARIO

RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER RIVER

After After

Carbon storage by Carbon storage by plant decrease plant decrease number of number of pollution pollution

High polluted air, water, High air, water, and polluted environment and environment

WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS WETLANDS

INCREASE INCREASEOF OF SPECIES NUMBER SPECIES NUMBER

3/4 3/4

3/4 3/4

3/4 3/4

LAKES LAKES

RAWA BABON : RAWA BABON : Preservation and Procurement Preservation and Procurement

DESIGN STRATEGY Divided area into 3 zones:

As there is already big potential of biodiversity, this area would focusing to be the area that preserve habitat and also create new habitat for species. Water catchment area expanded and improved with raingardens and water tank preservation system. This place also had great potential for recreation and educational park. there is already potential of (1) biodiversity, would tobiohabitat be the area preserve habitat andisalso create TheAs area is divided into 3big compartments, the existingthis lake,area (2) the edgefocusing of lake, (3) andthat settlement area. The lake divided intonew habitat for species. Water catchment area expanded and improved with raingardens and water tank preservation system. 2 zones based on its depth, deep and shallow. The division meant to differ the living species. Meanwhile on the edge of the lake, promenadeThis place also great potential for recreation and educational is designed as ahad waterfront-public space for locals’ amenities (jogging, park. cycling) and can be used for fishing. Besides for human activities, this

DESIGN STRATEGY Divided area into 3 zones:

Existing lake

Promenade with raingardens to filter water

Biohabitat and settlement area

The lake landscape has different elevation and curve design which also

collect preserve massive amount of water,area. and The alsolake protecting theinto areaThe is intentionally to be by flood when heavy rain occurs area is divided intooverrun 3 compartments, (1) the existing lake, (2)tothe edgeand of lake, (3) biohabitat and settlement is divided Existing lake so the surrounding Promenade with and help as barrier settlementsBiohabitat remaining safe from floods. third2 compartment (settlement surrounding) zones based on its depth, in deep and shallow. The division meant to differ the living species. Meanwhile on the edge of the lake, promenade raingardens to filter water settlement area is designed as a waterfront-public space for locals’ amenities (jogging, cycling) and can be used for fishing. Besides for human activities, this The lake landscape has different elevation and curve design which also area is intentionally to be overrun by flood when heavy rain occurs to collect and preserve massive amount of water, and also protecting the help as barrier so the surrounding settlements remaining safe from floods. third compartment (settlement in surrounding) Raingardens are taking advantage from the flood. It will be a public space when it dry but it Biohabitat are creaated to increase the number of species. will catch the stormwater when flood happening. The clean water will stored in water tank One of the most possible species to be mantained is bird. below and become water resource for both human and other species there. They could adapt well with urbanization. That’s why there are manmade birdare nest. There are also six the species of bird that Raingardens are taking advantage from the flood. It will be a public space when it dry but it Biohabitat creaated to increase number of species. almost need to be preserved, jawa (Centrowill catch the stormwater when flood happening. The clean water will stored in water tank Oneexinct of theand most possible species tobubut be mantained is bird. pusThey nigrorufus), jalak putih (Sturnus melanopterus), jawa are below and become water resource for both human and other species there. could adapt well with urbanization. That’s cerek why there (Charadius javanicus), cikalang (Fregata manmade bird nest. There christmast are also six speciesandrewsi), of bird that bangau bluwok cinerea), and pecukbubut ular asia (Anhinalmost exinct(Mycteria and need to be preserved, jawa (Centroga putih melanogaster). pus nigrorufus), jalak (Sturnus melanopterus), cerek jawa (Charadius javanicus), cikalang christmast (Fregata andrewsi), bangau bluwok (Mycteria cinerea), and pecuk ular asia (Anhinga melanogaster).

Raingardens

Biohabitat

Raingardens

Dry Scenario Dry Scenario

Biohabitat

Flood Scenario

Bubut Jawa (Centropus nigrorufus)

Flood Scenario

Jalak Putih (Sturnus melanopterus)

Bubut Jawa (Centropus nigrorufus)

Jalak Putih (Sturnus melanopterus)

Raingardens

Cikalang Christmast (Fregata andrewsi) Cikalang Christmast (Fregata andrewsi)

Manmade Bird Nest

Raingardens Raingardens

Manmade Bird Nest

Raingardens

Filtered water then stored in watertank to be clean water supply for the environment Filtered water then stored in watertank to be clean water supply for the environment

Bangau Bluwok (Mycteria cinerea) Bangau Bluwok (Mycteria cinerea)

Pecuk Ular Asia (Anhinga melanogaster) Pecuk Ular Asia (Anhinga melanogaster)

o

also ods.

Design replication are following the flows of water. We want to duplicate the design based on aquatic ecosystem we choose : wetlands, river, and lake. All the design strategy are planned to be implemented to every aquatic ecosystem in Jakarta.

[Student], [Jakarta], [S_223442] DESIGN REPLICATION [Student], [Jakarta], [S_223442] DESIGN REPLICATION

Design replication are following the flows of water. We want to duplicate the design based on aquatic ecosystem : wetlands, river, and Design replication are followingwe the choose flows of water. We want to duplicate the lake. All the DESIGN design based on aquatic ecosystem weREPLICATION choose : wetlands, river, and lake. All the design strategydesign are strategy planned to be implemented to every aquatic ecosystem in are planned to be implemented to every aquatic ecosystem in Jakarta. Jakarta. Design replication are following theflows flows ofof water. We want to duplicate theduplicate the Design replication are following the water. We want to based on aquatic ecosystem we choose : wetlands, river, and lake. All the design based design on aquatic ecosystem we choose : wetlands, river, and lake. All the design strategy are planned to be implemented to every aquatic ecosystem in Jakarta. design strategy are planned to be implemented to every aquatic ecosystem in Jakarta.

DESIGN REPLICATION

gn which also e from floods.

esign which also safe from floods.

Wetland Wetland Wetland

River River River

Lake Lake Lake

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As the mutualism symbiosis occur where human/community becoming a part to mainAccording to Singapore Biodiversity Index, design by adding educational andand tain ecosystem’s and quality of its functions while community also gain According to structure Singapore Biodiversity Index, design by adding educational mutualism symbiosis occur where human/community becoming a Lake part to mainWetland River Wetland River Lake tain ecosystem’s structure and quality of its functions while community also gain According to Singapore Biodiversity Index, design by adding educational and recreational functions create linkage of natural features with human. As the result, the benefits. with the improvement of aquatic ecosystem, the green plot recreational create linkage natural features human. 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NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL AREA PROPORTION CONNECTIVITY NATURAL CONNECTIVITY Wetland AREA PROPORTION River Lake

9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98% 9,98%

30% 30% 30% 30% 30% 30% 30% 30% 30% 30% 30% 30% 30% 30%

NATURAL AREA PROPORTION CONNECTIVITY

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INCREASE OFOF NATURAL AREAS INCREASE NATURAL AREAS

According to Pempov INCREASE NATURAL AREAS According to INCREASE Pempov DKI DKI INCREASE OF NATURAL AREAS AREAS OFOF NATURAL INCREASE OF NATURAL AREAS According to Pempov DKI

INCREASE NATURAL AREAS INCREASE OF OF NATURAL AREAS NATURAL AREA DKI PROPORTION CONNECTIVITY According to INCREASE Pempov OF NATURAL AREAS INCREASE OF NATURAL AREAS NATURAL AREA PROPORTION CONNECTIVITY 4/4

9,98%

30%

4/4

4/4

So,go w we those lems? we go those we go

RIVER SPINE VERTICAL HOUSING SURABAYA| 2020

Surabaya is the second largest city in Indonesia and known as one of the largest business and industrial city in Southeast Asia. But these business and industrial activities somehow has triggered urbanization and giving impact on the emergence of slums and social inequality. And side from the social aspect, those activities combined with the lack of infrastructure in the form of water bodies and green areas in the city also triggers high environmental temperatures (urban heat island/UHI) and pollutionthat makes it one of the hottest city in Indonesia.Spatial analysis shows that UHIs in Surabaya in were formed in the city center and tended to increase in that area. UHI increase in the city of Surabaya is directly proportional to the density of buildings, and inversely proportional to the density of vegetation. The site is located near the city center, in residential and commercial areas close to the road, and located near to one of the slum areas in Surabaya. The site has an total area of 3 hectares and adjacent to one of the largest rivers in Surabaya.

HOUSING MODULES The module doesn’t have strict layout and expand depends on the people in order to create a rather organic compositions. Green area act as flexible and overall barrier system.

1. Module has to be surrounded by green area.

MODULAR HOUSE THE WATER AND GREEN SPACE CONTRIBUTES FOR LOWERING THE TEMPERATURE IN THE BUILDING AND THE AREA

VEGETATION URBAN FARMING 2. Horizontal unorganized development depends on the people living there.

SUSTAINABILITY ASPECT

L FA L IN RA

G CA REE NO N PY

E W PR AT O ER M EN AD

IA ST R

The abstract/random modules is an attempt to keep slum’s characteristic, but in a more organized order. By distributing several functions in the modular form, it keeps the residents’ regular activity flows, preserve their habits. Beside that, modules also support the building structure.

GROUND VIEW

N

3. There is possibility for vertical development.

DE

Module used in order to achieve affordable housing and easier to control the sprawl. Every module consist of two bedrooms, one restroom, one kitchen, and one living room

SPRAWL MODULE DIAGRAM

PE

SINGLE MODULE DIAGRAM

SOLAR RADIATION

AERIAL VIEW

RICEFORREST LOCAL VIETNAM RICEFIELD LODGE VIETNAM| 2020

RICEFORREST The concept shares both experiment in placing the lodges in the middle of rice field and biomimicry - manifested the form of rice grain which started to peeled-off as the lodge’s form. Lodges are spread in the rice field area, located in the valley instead of contour’s peak keeping the landscape silhoutte of surrounding mountains ‘undisturbed’.

FUNCTION As some privacy aspects of the visitors had been crossed the line by locals, we design the lodges which functions both for residency and shelter for the farmer to get some rest during their work and provide direct interactions between them. In order to fullfil this function, our attempt is creating vertical layer with different zoning area and connecting group of lodges with skywalk. The dialogue between visitors and farmer are created through the shelter space at the lodge’s lower ground and also communal space which act as the node to gather in the middle of semi-skywalk path. Skywalk is supported by columns along the way, minimalize the land consumption on rice field area and at the same time revealing the beauty of their extreme contour levels. The building envelope is designed to provide air circulation, natural lighting, and giving access to 360o view to the rice field without any obstacles.

SKY MOTION RENTAL OFFICE IN SOUTH JAKARTA | 2019 Studio: Dr. Eng. Agus Hariyadi, ST, M.Sc

SKY MOTION RENTAL OFFICE

LATAR BELAKANG ISSUE

Tingkat Radiasi

Kualitas Udara

Keterbatasan Lanskap Hijau

Kawasan Urban

Tingginya tingkat persebaran area di Indonesia yang mengalami peningkatan suhu udara. Hal ini disebabkan oleh persebaran tingkat radiasi matarahari.

Tingginya tingkat polusi udara Jakarta membuat nilai kualitas udara menurun. Turunnya kualitas udara akan mempengaruhi kesehatan manusia.

Terdapat keterbatasan lanskap, seperti muka depan yang langsung berhadapan dengan jalan raya dan lahan yang diapit pemukiman dan pemakaman.

Jakarta memiliki masyarakat urban dengan mayoritas merupakan generasi Milenial dan generasi Z. Generasi Millennial & Z adalah generasi yang berorientasi pada lifestyle.

DESIGN GOALS Responsivity

Sustainability

Social Interaction

Jakarta menjadi salah satu area dominan yang berada di selatan Khatulistiwa yang mengalami persebaran suhu. Hal ini menyebabkan radiasi matahari yang diterima relatif lebih banyak. Hasilnya, suhu udara meningkat pada siang hari dan atmosfir di wilayah tersebut relatif kering. Berangkat dari permasalahan tersebut, maka desain bangunan harus dapat merespon kondisi tapak. Konteks tapak yang memiliki tingkat radiasi tinggi menjadi acuan dalam menciptakan konsep sistem bentuk fasad yang responsif. Temperatur merupakan salah satu parameter utamanya. Perubahan suhu yang diakibatkan oleh simulasi konteks site terhadap bangunan dapat menjadi salah satu strategi desain dalam mewujudkan bangunan yang responsif terhadap perubahan suhu.

Bangunan yang dapat beradaptasi terhadap kondisi tapak dan perubahannya merupakan sebuah usaha untuk menciptakan konsep bangunan yang berkelanjutan. Bangunan yang berkelanjutan harus dapat memenuhi kebutuhan di masa kini dan juga dapat menyiapkan respon kebutuhan di masa mendatang. Bangunan yang sustainable dapat diwujudkan dengan menciptakan konsep bangunan yang responsif terhadap kondisi tapak, baik dalam aspek fisik maupun nonfisik. Sustainabilitas tidak hanya diwujudkan dalam penggunaan teknologi, tetapi juga penggunaan material, organisasi ruang, dan lain sebagainya. Hal tersebut bertujuan untuk meninigkatkan kualitas hidup manusia.

Tapak berada di pusat kota Jakarta yang sarat akan gaya hidup masyarakat urban. Gaya hidup masyarakat urban sangat dipengaruhi oleh perkembangan jaman. Perkembangan politik, gaya busana, teknologi, dan budaya, cara berinteraksi, mempengaruhi kehidupan manusia. Secara tidak langsung, aspek-aspek tersebut mempengaruhi cara manusia bersosialisasi. Masyarakat urban masa kini menyukai atmosfer atau suasana kolaboratif. Generasi milenial menyukai dan panda berinteraksi, terutama dalam komunitas, di mana saja dan kapan saja. Oleh karena itu, memerlukan ruang-ruang publik yang dapat menampung kebutuhan tersebut.

CONCEPT

DESIGN STRATEGY Dengan munculnya isu yang sedang berkembang saat ini tentang kualitas udara, meningkatnya suhu, gaya hidup masyarakat, maka terbayang bahwa bertambahnya bangunan di perkotaan seperti tidak memberikan dampak positif sedikitpun terhadap lingkungan. Padahal selain itu, bangunan juga mengonsumsi energi listrik, air, dsb.

Site as Generator

Hasil identifikasi dan analisis tapak menjadi generator utama dalam membuat respon tapak dan menciptakan konsep bangunan. Rental office memiliki sistem secondary skin yang dapat bergerak mengikuti perubahan panas atau temperatur. Bangunan memiliki tujuan mewujudkan green design, konsep futuristik, dan responsif terhadap tapak. Hal ini diwujudkan dengan kinetic facade, shading, rotasi lantai, dan bentuk ruang.

So, how can a building response to changing heat and light? what if we see every building as a chance to enhance environmental sustainability?

SKY MOTION RENTAL OFFICE

ANALISIS TAPAK

01 Sun Path-Direct

Sun Path-Diuse

Analisis tapak dilakukan dengan memasukkan data mengenai tapak, kemudian data tersebut digunakan untuk mensimulasikan tapak. Analisis tapak terdiri dari sun path, radiasi matahari, temperature dry-bulb, temperature dew-bulb, angin.

Sun Path-Total

Temperature Dry-Bulb

Analisis radiasi digunakan untuk menentukan derajat orientasi yang optimal untuk bangunan, sehingga bangunan tidak mendapat total radiasi panas yang terlalu besar.

Tiap muka fasad dibagi dalam grid tertentu dan menghasilkan 2 komponen utama, yaitu titik radiasi dan besar total radiasi. Titik radiasi panas digunakan sebagai penanda lokasi grid fasad yang membutuhkan treatment, berupa double fasade. Sedangkan besar radiasi digunakan sebagai parameter untuk bukaan panel double fasad.

Temperature Dew-Bulb

Wind Rose

SKY MOTION

RENTAL OFFICE

TRANSFORMATION

Parameter: rotasi as conceptual design

Bentuk dipengaruhi view bangunan ke luar. Pusat perputarannya berada di area tengah tiap lantai. Bentuk akhir telah melalui beberapa proses transformasi. Awalnya, semua lantai memiliki derajat perputaran sebesar 3 derajat. Hasilnya, bangunan secara keseluruhan terlihat cukup ekstrim (gamb. 1). Untuk mengurangi tingkat ‘keekstriman’ tersebut, maka aturan perputarannya lebih dipersempit, menjadi beberapa lantai saja, yaitu 15 dan 30 (gamb. 3). Namun, hasilnya menjadi lebih kaku dan kurang estetik, sehingga diperbaiki ulang aturannya. Pada cara terakhir, bangunan berotasi sebesar x derajat dengan aturan rotasi hanya pada beberapa lantai, yaitu lantai 5, 15, dan 30 (gamb. 4). Aturan ini menghasilkan perputaran yang cukup halus, tidak kaku, dan dinamis. Parameter: radiasi as enhancement Setelah ditemukan bentuk akhir, maka dilakukan enhancement. Batasan enhancement terdiri dari 2 hal, yaitu best building orientation dan peak solar radiaton. Enhancement tersebut digunakan untuk menentukan desain

FORM CONCEPT Rotation of Orientation as Parameter

Orientation Untuk menentukan orientasi yang paling optimal, maka perlu disesuaikan orientasi massa terhadap tapak melalui simulasi dengan ladybug (best orientation simulation). Pada simulasi tersebut, digunakan beberapa elemen tapak untuk disimulasikan, seperti sun path, wind rose, radiation rose, dan keadaan langit tapak. Setelah itu, ditentukan parameternya berupa rotasi. Dengan testing perubahan angle tiap 10 derajat, maka akan ada 36 alternatif angle. Proses kerjanya yaitu, elemen tapak yang disimulasikan tadi akan mensimulasikan keadaan tapak dan akan menghitung besar radiasi yang mengenai bangunan (per perubahan angle bangunan). Besar radiasi yang paling minimal akan men-generate rotasi yang paling optimal. Sehingga hasil akhirnya adalah angle rotasi atau orientasi paling optimal untuk bangunan.

Alternative Form Rotation

Ladybug mensimulasikan tapak dan menganalisisnya. Dari hasil analisis tersebut, diketahui bahwa rotasi paling optimal adalah sebesar 10 derajat.

36 Alternatif Orientasi

FACADE CONCEPT

Peak Solar Radiation as Parameter Pada sisi tertentu, besar radiasi akan sangat tinggi, mengindikasikan bahwa sisi tersebut sangat panas. Tujuannya adalah untuk mendapatkan total radiasi yang lebih rendah. Respon yang dipilih adalah penggunaan shading. Ada 2 alternatif utama bentuk shading yang didasarkan pada orientasi yaitu, horizontal shading dan vertical shading.

ELEVATION

TAMPAK UTARA

TAMPAK SELATAN

TAMPAK TIMUR

TAMPAK BARAT

Peak Solar Radiation as Parameter High Solar Radiation Mapping as Parameter

FORM CONCEPT

FASADE DESIGN PROCESS

FACADE CONCEPT

Surface Mapping High Solar Radiation Mapping as Parameter Bentuk double fasade adalah segitiga adaptif yang Building Peak Solar is used as Base-Surface kemudian ditransformasikan menjadi bentuk trapeMapping sium. Peletakan dan rotasi bukaan panel di-generate Dalam menentukan sisi yang akan dijadikan base mapping, dilakukan simulasi untuk mengetahui besar total building peak solar per sisi. Besar total building peak solar dan orientasi sisi menjadi pertimbangan dalam menentukan sisi yang akan diletakkan kinetic facade. Kemudian, dengan beberapa pertimbangan, maka sisi yang dipilih adalah sisi yang memiliki total building peak solar sebesar 4240341 W. Sisi yang sudah dibagi ke dalam grid akan disimulasikan untuk menentukan double fasad. Hasil simulasi berupa data radiasi solar berupa range warna (biru hingga merah) dengan warna biru menunjukkan area yang tidak terlalu mendapat banyak radiasi (tidak panas), sedangkan warna merah sebaliknya.

dari kondisi tapak, dalam hal ini temperature atau radiasi matahari yang mengenai bangunan. Panel terdiri dari 2 geometri trapesium yang akan membuka ketika mencapai angka radiasi tertentu. Untuk mengetahui titik peletakan dan rotasi bukaannya, maka terlebih dahulu dilakukan simulasi analysis site dan simulasi peak solar radiation.

Warna biru hingga kuning menunjukkan suhu yang mengenai bangunan kurang dari 3 kWh/meter persegi, sedangkan warna kuning hingga merah menunjukkan suhu lebih dari 3 kWh/meter persegi.

Module Replication as Response

scenario

floorplan

RESPONSE SIMULATION RESULT

Kinetic Facade as Design Response (High Solar Radiation Mapping and Rotation as Parameter) Besar bukaan dimulai dari 0 hingga 90 derajat. Titik yang mendapat radiasi paling besar akan mendapat nilai rotasi paling minimum (0 derajat), sedangkan yang titik radiasi paling kecil akan mendapat nilai rotasi paling besar atau bukaannya semakin besar (90 derajat).

GREENVENTURE VERTICAL HOUSING AND MARKET IN SOUTH JAKARTA | 2020 FINAL PROJECT: Kurnia Widiastuti S.T., M.T.

GREENVENTURE SELF SUSTAIN NEIGHBORHOOD WITH HEDONISTIC SUSTAINABILITY APPROACH

Vertical Housing and Market in South Jakarta As the population continues to grow, the level of food consumption will continue to rise up. The city that doesn’t self-produce agriculture products in demand makes no other choice than looking for another resources (importing food). In urban city, the modern life disconnect people from soil, plants, and light exposure, or physical activity. Because of their works and the hustle and bustle of their daily life, urban people can’t ever leave their cities. In other way, cities are aging in place and at risk of getting a fall in land quality or daily habit that gets worse. This proposed design’s goal is to bring up the Indonesian’s habits, from tiny daily tweaks to system overhauls in agriculture, that help reduce stress and to make farming as a fun activity, daily habit, and sustainable thing in living. This will encourage people to do physical activity and indirectly raise the awareness of good quality daily nutrition. Hence, it focusses not only in the reality of farming, but also in human’s quality life.

KONSEP

SITE

BACKGROUND ISSUE Overpopulation In 2018, Indonesia ranked 4 with a population around 3.49% of the total human population in the world. Since 10 years ago, dependence on food imports has been in a high level and it goes higher. As population grows, food import is increasing due to domestic food production that does not meet the demands for growing population.

ISU

SITEPLAN

Food Productivity

transformation

IDEA: FARMING AS HABIT in young generation Conventional Farming Back then, farming has a lot conventional methods for crop production. Only the professional can do the management. They do the farming in rural area.

Present Mostly, the agricultural products are brought from the resources area (rural area) to urban city.

KONSEP

Future Farming Habit Focussing on the adoption of farming as daily habit that can stimulate sustainable agricultural development. The proposed design’s vision is to transform and regenerate urban community into urban farmer community. In a bigger scale, it improves the social capital, better quality life, and stimulate economic growth.

Aquaponic on Facade: Green Articulation

Indonesian Ministry of Agriculture (2016) reports that 32,7% of total area of agricultural isn’t managed properly. The non-managed land and the decreasing land caused the non-optimal agricultural product. Land Degradation

Integrated Farming and Waste Management

With the phenomenon of urbanization, the rate of migration to urban areas has increased every year, such as in Jakarta, it is projected to reach more than 80% by 2035. Over the past 10 years, constructions damage and decrease the land.

Jln. Raya Ragunan, Ps. Minggu, South Jakarta The area has 16.594 sqm and the existing was a tradisional market & an old mall. Waste South Jakarta is one of the biggest contributors to the amount of waste because it has many densely populated settlements.

Basic Knowledge on Food and Nutrition Education

concept

design approach Hedonistic Sustainability Leveling up the building (which provides well neighborhood’s environment) as a sustainable ecosystem. Also as a way of life in which pleasures plays an important role in the sense to achieve better quality life.

social

ecology economy sustainable

SITE

social individu pleasure pleasure hedonistic

One of the biggest challenges in the future is shaping the way of life of people who like gardening and replacing dependence on soil growing media with another alternative, such as water. Because the use of soil planting media may not be effective in the future (lands are potentialy damaged and getting degradation of soil quality).

human activity as plant generator

pumping aquaponic aquaponic water installation installation farm system

Blending The Recreation Sequen in Neighborhood

Food Supply Chain There’s crucial issue about food production and distribution. The production which is located on rural area causes food to have longer distribution process. This has impact on carbon emissions.

Due to inability to buy and access to get good quality food, there’s lack of knowledge about food and nutrition in society. If it’s not treated early, on a mass scale, it can have an impact on the quality of human resources.

SITE NOISE

ACCESS

ZONE

HIDROLOGY

DESIGN STRATEGY A Mini Vege Park Reducing UHI

B Climbing wall

Jakarta has high UHI level. To create a comfortable living environment, it’s necessary to create green area which beneficial in maintaining micro climate and also in storing water.

C Hanging Garden

aquaponic pond

D Arm Walk

G Seating Space

E Climbing Garden

H Kids Climbing Wall

Shifting Food Consumption and Production

In order to fulfill the food demands in 2050, we need to use more efficient planting system. Aquaponic, which’s efficient (up to 90% compared to conventional planting). It uses sewage to become fertilizer & replacing soil.

energy & waste management

Improving Food Productivity

Climate change decreases the quality of soil, forcing farmers to seek new land. Planting innovation is needed. Apart from trying to harness other potential energies, we can provide opportunity for the soil to 'breathe' again by restoring its quality.

perspective

How to make it as habit?

Where do we start?

housing

VEGETABLE GROWING cheatsheet aquaponic pond

Rooftop’s aquaponic pond.

Unit’s interior. housing

Loop Garden to accommodate educational activities about urban agriculture.

River Front as public space for market & housing users.

Rain Water Harvesting Landscape at the back of the housing.

Loop Garden as part of daily activity.

F Hammock Net Floor

Users are intended to grow their own plants that’s chose based on their daily diet. Growing food in home can lead users to consume healthy food and share the habit to other users.

scenario activity

AQUAPONIC FARMING SYSTEM

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reuse water distribution clean water distribution

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How’s the automatic system (watering-lighting) works? How’s the measurement of activity and its impacts? AQUAPONIC MECHANICAL SYSTEM Works to control the primary needs of plants (water, nutrition, & pH). The mechanical system uses several components; Arduino Uno microcontroller & Analog Electrical Conductiv- Urban Farming ity sensor. The system works by entering data Framework from the sensor as input, then processed by the Arduino Uno microcontroller. Data input is also summarized in the monitoring report. But if the input data exceeds the normal value, then the controlling system will work to adjust the EC & pH. The optimal pH value varies, the average is 5.8-6.8. As for water quality, the average is at the level of 10 EC. KINETIC FACADE SYSTEM In general, plants require a duration of 8-10 hours of sunlight during the day. The vertical farming facade framework has pivot point as axis of rotation. When the facade’s sensor reads the temperature is below the limit, the facade will rotate out, so that plants get sunlight. When the temperature is above the normal limit, the sensor will provide notification alerts that will be forwarded to the server to control the rotation with Arduino Uno.

A. B. C. D. E. F. G. H. I. J. K. L. M. N. O. P. Q. R. S. T. U. V. W. X. Y. Z.

Market Restaurant Innercourt Pedestrian Path Cafe Outdoor cafe Market Staff Locker Toilet Urban Farming Office Musholla Pantry Pond Costumer Service Mini Lounge Outdoor cafe Market Staff Locker Housing Staff Service Ramp (to the basement) Drop off housing Multifunction Space Pump Room Front Courtyard TPS Service

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floor plan

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How does water & nutrient distribution system for plants work?

SITEplan

GREEN PRODUCTIVE FACADE

GREEN FACADE

The exterior is used as a plant area for the seller to grow and manage their own plants product.

The green facade with climbing plants act as an insulation. This can reduce the indoor temperature.

The market has beautiful facade. Its functional facade can be planted by a variety vegetables, fruit, and herbal that is manage by the farmer.

market

Facade System The trend regarding urban agriculture has not been highly regarded by urban people. Therefore, to introduce this matter and make it familiar in the community, urban agriculture needs to be brought into public spaces, such as markets.

C

B

A A Light Steel Frame (Profile C) Canal C 75, 1 mm Porous Steel Floor- Metal Sheetblack color

A innercourt B open layout market

Shelf component plant grow bed, distance between 200 mm.

C hydroponic facade

Scaffolding Installation The kiosk layout is an open layout. The scaffolding is to create a playful impression. The target market is the millennial generation and Z, who tend to come to supermarkets more often. With the scafollding layout, the market layout is less monotonous and feels more fun. The use of laminated wood creates a natural vibe, but still modern. The scaffolding installation can be adjusted and adjusted according to current needs. Scaffolding is used because it is flexible (can be adjusted as needed), practical, and the material is easy to get, also available anywhere.

The Playful Scaffolding

There’s 3 type of scaffolding. Each one is playful and multifunction. Not only providing space for the farmer/seller, but also engaging social interaction.

The market interior

Management System

production supervisor

Profit Estimation for Farmer Profit in Vegetable Cultivation The profit for each vegetable may vary, depends on market interest or the availability. For example, water spinach is as follows:

What can we do with the scaffolding?

farmerseller

Farming

Seller as farmer, can plant, manage, & directly cultivate them. The goals are to effectively plant & educate people about how urban farming works.

Selling Vegetable

After cultivating the vegetable, fruit, or herb, they can store and sell them. The sell and buy part is taking the lower part of scaffolding.

Play on Scaff!

The

The upper part as social part, where the farmer/seller, costumer, public can meet and doing social interaction.

operasional staff

Profit in Water Spinach (Kangkung) Cultivation: Days of first season = 1 month Days of average season = 4-7 days 16 plants of water spinach = 1 kg Offline market sell price = Rp15.000,00 Online sell price = Rp18.000,00 Profit 1 facade panel= height x width = 24 sqm 1 facade panel= 1066 hydroponic= 67 kg 1 facade panel’s profit = Rp1000.000,00-Rp1.200.000,00

section

HOME OF DEWI SRI FARM FIELD’S DEVELOPMENT YOGYAKARTA| 2018

HOME OF DEWI SRI

Dewi Sri adalah dewi yang dipercaya oleh masyarakat Jawa sebagai dewi pertanian, kesuburan, kemakmuran, dan kesejahteraan. Banyak masyarakat yang masih percaya dengan keberadaan dewi ini sampai sekarang sehingga beberapa upacara masih dilakukan untuk menghormati Dewi Sri. The Home of Dewi Sri merupakan sebuah gagasan penataan kawasan Dusun Nglaban dimana masyarakat agraris yang masih melestarikan budaya pertanian, mampu bertahan dari gerusnya pembangunan dan mendapat manfaat dari upaya pelestarian tersebut. Budaya pertanian diintegrasikan dengan potensi pariwisata dengan presentase yang tepat, diharapkan juga mampu menjawab permasalahan lapangan pekerjaan. Tapak yang merupakan lahan tanah kas desa dengan ukuran paling memadai, dianalogikan sebagai rumah masyarakat tradisional Jawa yang menghormati Dewi Sri. Masyarakat tradisional Jawa, terutama pengamal ajaran Kejawen, memiliki tempat khusus di tengah rumah mereka untuk Dewi Sri yang disebut Pasrean (tempat Dewi Sri) agar mendapatkan kemakmuran. Bagian tengah diadaptasi sebagai ruang ‘centre of human activity’ dengan orientasi lanskap sawah di sekeliling sebagai lahan untuk bercocok tanam dan menjadi bentuk kontemplasi bahwa kemakmuran didapat dengan interaksi sosial warga, antar warga-pengunjung, dan keberadaan sawah di sekeliling itu sendiri. Budaya pertanian sejatinya jika dipertahankan memiliki beragam manfaat dan bisa bersinergi dengan baik dengan berbagai komunitas sehingga menjadi ‘rumah’ yang memberikan kemakmuran berbasis agriculture - the Home of Dewi Sri.

ANALISIS TAPAK

Site merupakan tanah kas desa dusun Nglaban yang keseluruhannya terdiri dari area sawah yang merupakan sumber pendapatan utama masyarakat.

TRANSFORMASI DESAIN LANDSCAPE

OBJEK DI SITE

Tapak merupakan lahan pertanian berupa sawah yang kerap ditanami tanaman padi dan holtikultura.

Di dalam site terdapat sebuah perangkat listrik yakni sutet.

TOPOGRAFI

BANGUNAN SEKITAR

Site relatif berkontur dengan perbedaan ketinggian antara 50-65 cm.

Di sebelah Utara site sedang dibangun restoran dan site dikelilingi oleh perumahan warga.

AKSES

BADAN AIR

Site dibatasi oleh jalan raya pada 2 sisi dengan row 5 meter. Jalan pada bagian Selatan site merupakan akses hingga ke Maguwoharjo dan menjadi potensial.

Di sisi Barat site berbatasan dengan sungai yang cenderung kering saat musim kemarau (tidak mengalir deras sepanjang tahun).

KONSEP

Terdapat SUTET pada site dengan radius jarak yang cukup lebar, sehingga zonasi bangunan menghindari SUTET.

FARMING

INTEGRATION

Menyisakan sebanyak mungkin ruang sawah

COMMUNITY

PRINSIP PERANCANGAN

PENGEMBANGAN DESAIN TAHAP 1

Perancangan dilakukan secara bertahap agar lebih mudah secara konstruksi dan seiring berjalannya waktu sebagai proses membiasakan masyarakat untuk hidup terintegrasi secara internal dan eksternal (ketika mulai merambah pariwisata dan ada pelaku kegiatan dari luar) 1. TAHAP 1: Production-oriented Farming Kawasan tetap diprioritaskan sebagai lahan pertanian dengan pengolahan panen yang terpadu yakni stack in farming dan intensiďŹ kasi pertanian, serta pembuatan koperasi pertanian untuk memudahkan petani sekitar dimana terpusat pada satu titik. Dusun Nglaban dikatakan memiliki kelimpahan air dan pernah mengirim ke desa tetangga yang kekurangan. Sehingga, perlu adanya reservoir untuk sumber irigasi dan air lainnya yang akan digunakan di kemudian hari. 2. TAHAP 2: Community-oriented Dusun Nglaban membutuhkan ruang untuk berkumpulnya warga, bermain, atau melakukan kegiatan kolektif lainnya. Community space merupakan ruang yang mewadahi kegiatan tersebut sebagai wujud dari zonasi centre of human activity. Ruang ini bersifat multifungsi dan karena sebagai pusat, bisa digunakan untuk menampilkan kesenian jathilan yang menjadi ciri khas masyarakat (community-based branding)

Pengembangan fokus pada sektor pertanian dengan adanya koperasi pertanian, rumah penggilingan padi, tempat penyimpanan panen, penyimpanan benih, pengolahan limbah, dan reservoir.

ZONASI DAN PROGRAM RUANG

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6 FARMING EXPERIENCE Dusun Nglaban merupakan dusun yang kuat akan karakteristik lahan berupa persawahan. Kebudayaan bertani dipertahankan dan dikembangkan sebagai daya tarik dari utama dari tapak ini.

1 7

11 Area pengembangan

TAHAP 2

Integrasi stacking farming dan community space dengan orientasi sawah di sekitar sebagai bentuk engaging antara alam dengan komunitas yang berbasis pertanian itu sendiri

3. TAHAP 3: Integration Seiring berkembangnya pertanian dan komunitas maka diperlukan suatu hal yang mampu menjembatani dengan masyarakat dari luar. Integrasi dilakukan dalam bentuk market dan lodges. Market digunakan untuk memasarkan hasil pertanian sementara lodges untuk memberikan pengalaman hidup sebagai masyarakat agraris sekaligus menawarkan view lanskap sekitar.

No. 1. 2. 3.

TAHAP 3

Fungsi komersil berupa lodges dan untuk menginap dan open-air market sebagai bentuk interaksi antara masyarakat-pengunjung melalui komoditas andalannya dimana di bawahnya terdapat ruang terbuka publik, serta gardu pandang, dengan orientasi memanfaatkan lanskap sawah sekitar.

4. 5. 6. 7. 8.

Program Ruang Sawah Koperasi Pertanian Pengolahan Hasil Pertanian Reservoir Waste Treatment Community Space Gardu Pandang Bamboo Bridge

9. 10.

Market Lodges

11. 12.

Toilet Umum Parkir

LOCAL MARKET Local market merupakan bentuk integrasi antara ruang farming dan community. Tempat ini difungsikan sebagai pasar tempat menjual komoditas panen yang dihasilkan kawasan.

Aktivitas/Fungsi Bercocok tanam Menjual kebutuhan pertanian Mengolah hasil panen Sumber air Pengolahan limbah Kegiatan kolektif warga, menampilkan kesenian Spot untuk melihat view kawasan Jalan setapak yang ditinggikan, terbuat dari bambu untuk memberikan pengalaman ruang di tengah sawah Menjual komoditas panen dan pengolahannya Menginap, smooth integrated living dengan warga sekitar BAB, BAK Parkir kendaraan

RESERVOIR DESA Merupakan respon terhadap eksisting sungai di antara perbatasan desa (integrasi antar desa) dan isu kurangnya penyediaan air.

Stack

Bentuk terasering (stack) memungkinkan tanaman mendapatkan cahaya secara merata. Di masa depan, ruang di dalamnya dapat dikembangkan untuk urban farming. Tujuannya untuk meningkatkan hasil tani dan mengefektifkan penggunaan lahan.

Research

View merupakan elemen yang kuat pada tapak (sunset dan sunrise). Gardu pandang dapat digunakan sebagai ruang berelaksasi, sekadar mengenal rasa ruang yang berbeda dari ruang yang biasa kita jumpai sehari-hari di perkotaan.

Merupakan rumah yang berfungsi seperti lumbung desa. Rumah olah tani menyediakan ruang bagi para petani untuk menyimpan hasil padinya maupun untuk memproses padi yang telah dipanen di tempat.

Lodge modular, tata letak satu blok yang saling terintegrasi dalam 1 petak sawah. Lodge “terbuka� untuk memaksimalkan view & interaksi antar pengguna lodge. Untuk menambah kesan natural & hijau , ditambahkan tanaman hidroponik di kedua sisi bangunan.

Rumah kompos disediakan untuk mengelola sampah organik. Kompos berpotensi untuk dikembangkan, disamping isu semakin tingginya jumlah sampah organik dan menyebabkan terjadinya polusi gas metana ke udara.

Area difasilitasi oleh sebuah pusat informasi dan pengetahuan mengenai ilmu agraria (Rumah Pusat Pembibitan dan Research) yang juga berfungsi sebagai area berkumpul atau ruang komunal.

KARAKALINDA DERMAGA PENYEBRANGAN DI BALI | 2018 Status: Sayembara

PAVILION

PUBLIC SHOWER

KIOS

DERMAGA

D E T A I L

BEHAVE STUDY CENTER STUDY CENTER| 2018 Status: Competition

BEHAVE

Z GENERATION BASED STUDENT CENTER

EXPECTED USER CONDITION NON PHYSICAL CONDITION

Dalam beberapa tahun ke depan, Indonesia akan mengalami pergeseran dominasi generasi muda (generasi Z). Kota Yogyakarta sebagai kota yang menaruh kepedulian besar terhadap nilai edukasi hendaknya memiliki kepedulian juga terhadap fasilitas yang dapat mengakomodasi kenutuhan generasi muda, khususnya pelajar/ mahasiswa.

GENERATION X 1965-1980 Karakteristik: - toleran, menyukai perbedaan - mengutamakan keseimbangan - bersifat konservatif - menghargai waktu - bergantung pada diri sendiri

MILLENIALS 1980-2000 Karakteristik: - menghargai individualitas - memiliki etos kerja multitasking - memiliki sifat toleransi tinggi - terpengaruh pada media digital - memiliki sifat ‘street smart’

GENERATION Z 1995-2010 Karakteristik: - menyukai interaksi sosial - menghargai keragaman - menyukai efektivitas - menyukai pembelajaran melalui forum/kegiatan

YOGYAKARTA, STUDENT CITY

DENSE URBAN AREA Urban Area: ‘’a human settlement with high population density and infrastructure of built environment. Urban areas are created through urbanization and area categorized by urban morphology.’’ Salah satu faktor yang menentukan keberlangsungan suatu negara adalah jumlah populasinya. Berdasarkan data CIA World Factbook 2004, Indonesia menduduki peringkat ke-4 untuk jumlah penduduk tertinggi di dunia (2017). Pada tahun 2013, Bappenas memproyeksikan jumlah penduduk Indonesia pada 2018 menjadi 265 juta jiwa. Jumlah tersebut terdiri dari kategori usia produktif (67,6%) dan kategori usia non-produktif sebesar 32,4%. Dengan demikian, hal tersebut menandakan bahwa angka ketergantungan cenderung menurun. Di samping itu, ini merupakan sebuah momentum bonus demografi bagi Indonesia karena jumlah usia produktif lebih banyak daripada usia nonproduktif. Angka tersebut diperkirakan akan bertahan berdasarkan proyeksi jumlah penduduk Indonesia pada tahun 2045 di mana terdiri dari 209,5 juta penduduk usia produktif (65%) dan kelompok usia nonproduktif 129,6 (35%). Ditambah dengan perkiraan perpindahan populasi pekerja, diperkirakan tingkat urbanisasi penduduk di tahun 2045 akan menjadi 67,1%. Dengan demikian jumlah penduduk di kota akan sangat besar dibanding dengan penduduk di daerah rural.

ISU Yogyakarta, Student City

Yogyakarta telah lama dikenal sebagai kota pelajar dengan berbagai karakteristiknya. Di Yogyakarta, kita hidup berdampingan dengan kawasan pendidikan dan fasilitas pendukung yang menunjang kebutuhan masyarakat, khususnya dalam bidang pendidikan, tetapi apakah semua itu sudah sesuai dengan kebutuhan masyarakat di masa mendatang?

Future Generation

Zaman ini merupakan zaman serba ada, zaman di mana banyak hal dapat didapatkan dengan mudah. Hal ini mengakibatkan munculnya generasi baru setelah generasi Y, yaitu generasi Z.

Questioning Sustainability

Kata sustainable telah menjadi wacana agenda global, sustainable tidak hanya mengacu pada lingkungan hidup, tetapi juga keberlangsungan kegiatan yang berjalan di dalamnya. Seiring berjalannya pembangunan yang ada hingga sekarang, sadarkah kita bahwa pembangunan sudah berjalan sesuai dengan kebutuhan saat ini dan masa mendatang?

Yogyakarta telah lama dikenal sebagai kota pelajar dengan berbagai karakteristiknya. Di Yogyakarta, kita hidup berdampingan dengan kawasan pendidikan dan fasilitas pendukung yang menunjang kebutuhan masyarakat, khususnya dalam bidang pendidikan, tetapi apakah semua itu sudah sesuai dengan kebutuhan masyarakat, terutama pemuda di masa mendatang?

Site to collage/ university [0.3 - more km] Site to public fasility [0.5 - more km] Site to student housing [1.0 - 1.33 km]

Batas wilayah kampus UGM

USER AND ACTIVITY MAPPING

Jalan Persatuan No.3A, Kec. Depok, Kab. Sleman, Daerah Istimewa Yogyakarta 55281 Luas tapak: 22x70 m

Proyeksi Penduduk

Bonus Demografi

AVERAGE USER ANALYSIS

CONTEXTUAL ANALYSIS

VEHICULAR DENSITY

Tapak berada di dalam kawasan yang sering dilalui masyarakat umum dengan mayoritas mahasiswa kampus.

Tapak berada di sisi Jalan Persatuan, jalan yang menyatukan 2 klaster berbeda (saintek dan humaniora UGM). Tapak berpotensi menghubungkan kedua klaster.

Tapak berada di pinggir jalan dengan kepadatan lalu lintas yang cukup besar. Hal ini berpengaruh terhadapa jumlah CO2 atau pilusi yang terakumulasi tiap harinya.

ISU YOGYAKARTA AS STUDENT CITY

TRANSFORMASI DESAIN

health social

Kata sustainable telah menjadi wacana agenda global. Sustainable tidak hanya mengacu pada lingkungan hidup, tetapi juga keberlangsungan kegiatan di dalamnya. Seiring berjalannya pembangunan sekarang, sudah sadarkah kita bahwa pembangunan berjalan sesuai dengan kebutuhan saat ini dan masa mendatang? DENSE URBAN AREA

learn

FUNGSIONAL

TEKNOLOGI KONSTRUKSI Kemudian massa dibagi menjadi 3 zona; health, social, dan learning.

Desain dirancang dengan menggunakan struktur baja proďŹ l l berukuran 30x30 dan juga beton precast yang mulai digalakkan penggunaannya di Indonesia. VEGETASI

Memberikan space untuk sirkulasi vertikal dan horizontal.

Dampak kepadatan area berpengaruh kepada berbagai aspek kehidupan. Penduduk terus bertambah setiap tahunnya. Hal ini dapat menjadi tantangan tetapi juga keuntungan di masa depan.

SITE AND CONTEXT TEMPERATURE

Menaikturunkan

massa

parsial

untuk

Tapak dikelilingi gedung sehingga sirkulasi udara dan akses ruang terbuka. suhu sekitarnya cukup tinggi. CO2

Tapak berada di pinggir jalan, sehingga akumulasi CO2 cukup tinggi.

WIND

Angin yang melalui area tapak tidak cukup besar maupun kencang.

Pembagian program ruang menjadi 3 yaitu, health, living, dan study learning yang disesuaikan dengan aspek kebutuhan gaya hidup dari mahasiswa.

Desain dirancang dengan sederhana dan fungsional sesuai dengan karakteristik dan kebutuhan dari mahasiswa saat ini.

Generasi sekarang sedikit banyak menentukan karakteristik generasi mendatang. QUESTIONING SUSTAINABILITY

SITEPLAN

ZONASI

Di Yogyakarta, kita hidup berdampingan dengan kawasan pendidikan dan fasilitas pendukung yang menunjang health kebutuhan masyarakat, khususnya dalam bidang pendidikan, tetapi apakah semua itu sudah sesuai dengan kebutuhan masyarakat, terutama pemuda di masa men- Diawali dengan bentuk massa sederhana. datang? FUTURE GENERATION

KONSEP

Bentuk massa akhir setelah penyesuaian dengan kebutuhan ruang dan sirkulasi.

Sistem vertical garden menjawab tantangan dari tapak yang berada di area dengan kepadatan lalu lintas cukup tinggi dan juga dikelilingi oleh bangunan tinggi yang menyebabkan tingginya akumulasi CO2.

POTONGAN

FEATURE

PALU CHURCH CHURCH FOR PALU & DONGGALA| 2018 Status: Social Project

KONSEP

transformasi desain RUMAH TAMBI

RUMAH SAURAJA

Unsur Visual Rumah Adat Tambi tampak depan didominasi oleh kombinasi bentuk dasar segitiga dan persegi panjang. Tampak samping didominasi oleh kombinasi bentukan dasar trapesium dan persegi panjang. Bentuk dasar segitiga mempunyai makna adanya dua relasi pokok dunia (manusia) dan supernatural.

Sauraja atau rumah adat Sulawesi Tengah khas akan salah satu ruangnya, yaitu ruang serambi depan atau biasa disebut dengan gandaria. Serambi ini khas akan kehadiran 2 tangga yang berhadapan satu sama lain. Kedua tangga tersebut merupakan akses utama (dapat digunakan semua pemakai ruangan) untuk menuju ke dalam ruangan.

Keterkaitan antara dua relasi, yaitu relasi vertikal dan relasi horizontal digambarkan dalam hubungan ruang segitiga sebagai berikut:

Unsur visual ini sejalan dengan makna esensial salib Kristus yaitu menandakan terjalinnya relasi atau hubungan antara manusia dengan Tuhan (atas ke bawah) dan manusia dengan manusia (kiri ke kanan).

Relasi vertikal yaitu hubungan antara manusia dan supernatural atau Sang Pencipta Kehidupan.

HORIZONTAL

VERTIKAL

Pembagian massa secara horizontal untuk menentukan kebutuhan ruang secara fungsional, yang utamanya terdiri dari area duduk umat, altar, area organ, dan koor, ruang sakristi, serta ruang pengakuan dosa.

Pembagian ruang secara verti- Penyesuaian ruang dengan Massa makin ke belakang kal, merupakan bentuk penye- memperhatikan zonasi horizon- (mendekati altar), semakin besar. suaian dengan adat dan budaya tal dan vertikal. Menunjukkan kebesaran ruang yang dipercayai masyarakat bagi Sang Pencipta dan hubunlokal. Memperlihatkan hubungan antara manusia dan Sang gan ruang bagi manusia dan Pencipta yang sangat luas. Sang Pencipta.

program ruang

HORIZONTAL-VERTIKAL

SKALA

material Penutup atap : menggunakan kayu dan sirap untuk menonjolkan aspek lokalitas Palu sehingga dapat terasa seimbang dan menyatu dengan lingkungan sekitar.

Relasi horizontal yaitu hubungan antara manusia dan sesamanya.

Rangka : baja ringan, material ini efektif untuk system knock-down karena dalam perakitan lebih mudah.

Dinding : dibuat dengan curtain wall kaca untuk memaksimalkan cahaya alami dan penghawaan alami pada gereja.

Dinding terluar dibuat setinggi balustrade dengan ornamen tradisional Palu untuk menonjolkan lokalitas.

zonasi PRIVAT terbatas hanya untuk pengurus gereja SEMI-PRIVAT diakses oleh yang petugas ibadah atau umat yang memiliki kepentingan tertentu PUBLIK tempat umum bagi jemaat untuk beribadah

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