portfolio architecture works
td
Mohammad Thareq Defa +6287884245441 thareq.defa@gmail.com
2
content. content. About Me Chapter 01: Selected Architecture Works 01 Movement as Boundary:
Pedestrian Movement Modelling as A Strategy in Designing Entertainment and Lifestyle Center in TOD Blok M, Jakarta, Indonesia
02 Green Blocks:
Mixed-use Building in Waduk Melati Area, Jakarta, Indonesia
03 Green Ribbon:
Mixed-use Building in Manggarai Railway Station Area, Jakarta, Indonesia.
04 The Sanctuery:
Competition Proposal for Designing Resilience in Asia Design Competition 2019
05 Wale Rempe’ Doud:
Competition Proposal for Sayembara Propan 2019
Chapter 02: Architecture Works Chapter 03: Other Proficiency
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about aboutme. me. Mohammad Thareq Defa Bandung, September 25th, 1996 Indonesian +687884245441
thareq.defa @gmail.com Thareq Defa thareqdefa
Thareq is a learner. He believes that it takes a process to get something done. This makes him grow as a quick-learner and hard-working one. The architectural-degree background makes him have a good strong analytical thinking and problem-solving in creative iteration-making. He believes that he will bring a good value for the project and anywhere that he takes part, especially in architecture and urban design field.
EDUCATION 2019 Institut Teknologi Bandung // Bandung, Indonesia Master of Architecture // 3.74 of 4.00 Thesis Project: Pedestrian Movement Modelling as A Strategy in Designing Entertainment and Lifestyle Center in Transit Oriented Development (TOD) Blok M, Jakarta Selatan. 2018 Institut Teknologi Bandung // Bandung, Indonesia Bachelor of Architecture // 3.61 of 4.00 Thesis Project: Mixed-use Building in Manggarai Railway Station Area 2014 SMA Alfa Centauri Bandung // Bandung, Indonesia Awarded as the best graduate
WORKING EXPERIENCE 2019 Institut Teknologi Bandung // Bandung, Indonesia Architectural Computation Studio Tutor Assisting 2nd grade architecture student in computer laboratory as a tutor. // Tutoring basic module of AutoCAD 2D, Sketch UP, and Adobe Photoshop. 2019 Akanmenikah.com // Bandung, Indonesia Freelance Content Creator Creating daily instagram post for enhancing brand awareness and folllower’s engagement 2018 PTI Architects // Jakarta, Indonesia Architectural Intern Executor of development for architectural design concept drawing for private resort in Uluwatu Bali // Executor of development for Masterplan concept of the KEK Morotai // Executor of development for architectural design document for several commercial project. // Managed graphic design proposals and presentation for client correspondece.
ORGANISATIONAL EXPERIENCE 2017 Vice Head of Communication and Information Division IMA-Gunadharma 2016 Head of Graduation Parade (July) IMA-Gunadharma
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DIGITAL PROFICIENCY
OTHER PROFICIENCY
AutoCAD 2D Sketch UP Lumion Rhinoceros+GH Revit Vray Corel Draw Adobe Photoshop Adobe In Design Adobe Lightroom Microsoft Office
Layouting Hand-sketching Photo editing Model making Design presentation Photography
ACHIEVEMENTS 2019 3rd Winner of Architecture Competition Tourism Information Center 2019- Propan Wale Rempe’ Doud - Tourism Information Center 2019 Honorable Mention of Architecture Competition Designing Resilience in Asia (DRIA) 2019 The Sanctuery - City Intervention 2017 3rd Winner of Oil Rig Design Competition PETROLIDA 2017- SPE ITS SC 2016 Dean’s list The most outstanding student of architecture department (2015/2016) 2014 Scholarship Grantee Beasiswa Djarum Plus 2016/2017; Beasiswa Walikota Bandung (BAWAKU) 2017; Beasiswa Peningkatan Prestasi Akademik 2016; Beasiswa Pemprov Jawa Barat 2014.
WORKSHOP & SEMINAR 2017 Bandung Cityscapes | Streetware South East Asia by AA Visiting School Programme 2017 Institut Teknologi Bandung - Symposium 2017 Power Up Your Identity Berrybenka - Seminar 2017 Nation Building, Character Building, and Leadership Development Djarum Foundation 2016/2017 - Training
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6
chapter 01: selected works
this chapter consists of architectural studio assignment and architectural competition between 2018-2019
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movement as boundary
8
02
Movement as Boundary: Pedestrian Movement Modelling as A Strategy in Designing Entertainment and Lifestyle Center in TOD Blok M, Jakarta, Indonesia. Master Thesis Project 2019 Supervised by Aswin Indraprastha Ph.D., IAI. As the city is developing significantly, the intensity of pedestrian movement is also increasing, especially in strategic areas, such as transit oriented development (TOD). Unfortunately, there are areas which is high pedestrian intensity but lack of pedestrian-oriented design response. Blok M is one of the TOD area which has high pedestrian movement intensity, the movement is generated by site’s attractor, there are Terminal Bus Blok M, Plaza Blok M, Blok M Square, and MRT Blok M. Based on this data, the pedestrian movement factor is really important in the development of the TOD Blok M area. Furthermore, Blok M has its own image as a Little Tokyo. Besides that, this area also known as entertainment district, consist of bar, karaoke, cafÊ, resto, and also frequent festival. The goal of this project is to design entertainment and lifestyle center who accommodates and supports entertainment activity, integrating with urban fabric and existing public area. The project is expected to be solution of high pedestrian movement in the urban context area. In the general, the design simulation consists of (1) Phase 1 - TOD Blok M area movement simulation; (2) Phase 2 - site movement simulation; and (3) Phase 3 - intelligibility analysis as design evaluation. The output of the first phase is a movement framework of the TOD Blok M, hereafter the framework is analysed to get input for the phase 2. The phase 2 goals are finding the circulation figure of the project and also analyzing the level of service of pedestrian circulation. In the last phase, the design is evaluated by using space syntax to get the intelligibility value. This value is evaluating about the permeability of the project in the global context. The design output is focused on the pedestrian movement in TOD context and the image of Blok M as an entertainment district.
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// blok m area
Blok M area is surrounded by several number of attractor points, such as Blok M Plaza, MRT Station, Shophouses, Blok M Square, Bus Terminal, Pasaraya Blok M, Taman Martha Tiahahu and etc.
SITE ANALYSIS Deskripsi
Parameter MRT Jakarta Point Emitter
Titik
Pagi
Siang
Sore
Malam
114
45
163
115
30
21
62
42
C
44
15
48
31
A
27
21
54
32
B
12
20
78
45
16
20
50
34
a point from which Quelea can A be emitted B
Terminal TJ Parkir on-street dan transportasi online
The site analysis is done by collecting pedestrian data spatio-temporally. the observation collecting data about originator point, destinator point, the number of pedestrian of each originator point, the character of the pedestrian.
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// morning (8 am)
// afternoon (1 pm)
// evening (5 pm)
// night (9 pm)
METHOD 3 SIMPLE FLOCKING RULES
SEPARATION
steer to avoid crowding local flockmates
ALIGNMENT
steer toward the average heading of local flockmates
COHESION
steer to move toward the average position of local flockmates
The movement simulation is using Quelea, introduced by Alex Fischer. The algorithm is using a basic principle, found by Craig Reynolds in a two and three dimension, which is indicating movement vector. In this simulation, agent is initiated from originator point, to move based on the algorithm. The parameter consists of, agent setting, agent-to-agent force, and agent-to-environment force. source: http://howtoseethoughts.org/
AGENT SETTING SYSTEM
AGENT-TO-ENVIRONMENT FORCE
AGENT ORIGINATOR
AGENT-TO-AGENT FORCE
ENVIRONMENT
The simulation of the pedestrian movement is using swarm intelligence principle. Swarm intelligence (SI) is the collective behavior of decentralized, self-organized systems, natural or artificial.
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PHASE 1 - MOVEMENT SIMULATION ON BLOK M AREA
// morning (8 am)
// afternoon (1 pm)
// evening (5 pm)
// night (9 pm)
//overlapping simulation
based on the results of the analysis in the morning, afternoon, evening and night, there are some differences between them, to produce a frame diagram of pedestrian movements in the Blok M area, overlaying is done on all four scenes. Resulting in a pedestrian movement diagram frame which will be used as a reference in analyzing
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PHASE 2 - MOVEMENT SIMULATION ON SITE BOUNDARY
// phase-1 anaysis
the blue node represent a crossing between pedestrian movement with site boundary, the green node represents a response to regional structure (aisle on the south site), and the yellow node represent new attractor on the site boundary based on the density analysis. these nodes are going to be an input for phase-2 simulation.
THE LOWER CIRCULATION SYSTEM
THE UPPER CIRCULATION SYSTEM
each new nodes represent the number of pedestrian on its surroundings. the yellow nodes is proposed as a new attractor on the site project.
the upper system is going to be connected on the surroundings, so the number of pedestrian is adjusted between lower and upper circulation system.
the result of pedestrian movement simulation on the lower circulation become a reference for massing and circulation framework for groundplan.
the result of pedestrian movement simulation on the upper become a reference for massing and circulation framework for 3rd floor plan.
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PHASE 3 - INTELLIGIBILITY EVALUATION BASELINE
//integrity
//connectivity
intelligibility: 0.61
ITERATION 1
//integrity
//connectivity
intelligibility: 0.74
ITERATION 2
//integrity
//connectivity
intelligibility: 0.82
intelligibility shows the level of correlation between local scale measurements (connectivity) with global scale measurements (integrity). Thus, this assessment shows the measurement of the structure of space in a global context. Intelligibility is related to the ease of achieving a space structure.
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MASSING CONCEPT
1 //parameter input
2 //movement simulation
4 //maximizing intensity
3 //massing and circulation
5 //activating the edges
6 //final result
CIRCULATION CONCEPT PEDESTRIAN ROUTE
destination
destination
destination
PEDESTRIAN DENSITY ANALYSIS //input parameter
//movement simulation
//circulation width
based on pedestrian comfort level (PCL) standard
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4
5
1 2
6
3
3
3
//siteplan
legend: 1. blok m plaza 2. blok m MRT station
0 3. shophuse area 4. transit plaza
16
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5. blok m bus terminal 6. blok m square
FACADE CONCEPT
//pocket garden
//led facade
//retail box facade
//south elevation
16
64m
2 4 3 1
//groundplan
legend: 1. drop-off 2. bike parking (100 lot)
0 3. pedestrian mall 4. event space
8
16
32 m
fnb retail shop retail entertainment retail
//b2 fl plan
//3rd fl plan
//b1 fl plan
//3rd fl plan
//2nd fl plan
//4th fl plan
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//alfresco dining visualisation
//event space visualisation
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//pedestrian mall visualisation
//event space visualisation
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20
//night visualisation
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green blocks
22
03
Green Blocks Mixed-use Building in Waduk Melati Area AR 5190 Studio Desain I 2018 Supervised by Nelly Lolita Daniel, Ph.D., IAI. The project is a design proposal for AR 5190 Architecture Design Studio I. The project is a mixed-use typology, consist of retail, hotel, and apartment located in the TOD area of Dukuh Atas, Waduk Melati, Tanah Abang, Central Jakarta. This project is located in a crossing of two mode of transportation which is acted as a movement generator. The movement generators are the BNI city station and the Jakarta MRT station. Therefore, this project could be a transportation hub, where people can be connected easily, quickly, and comfortably to and from the transportation point. Based on this phenomenon, there is a question: “How to make a mixed function building in the TOD area, which is more than just transit? Block is a representation and response to an urban grid in the form of a box geometry. Stacked blocks are a representation of a building with high density while stacked boxes are buildings that were landed initially. Green is a response to the city’s contrasting coverage. The project is expected to not only be able to bring a green atmosphere in the spadat city, but more than that. Make the building itself environmentally friendly and contribute positively to the city.
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MASSING CONCEPT
men berloPusat.
konsep pembentukan massa
!
sh
pu
ll!
pu
1
ng menjadi t ialah staransportasi si, dimana ju dan dari
Pada awal perancangan dilakukan pembagian zona hijau dan zona terbangun berdasarkan peraturan.
DIVIDING
Dengan dilakukan pembagian, dapatthe memudahkan perancangan At beginning, the dalam mengolah intensitas massa parcel is divided into two bangunan.
zone, building coverage zone and green zone, based on the government’s regulation.
h dari
fitur bangunan
AL
2 Dilakukan penumpukan ‘box-box’ dengan perhitungan intensitas maksimal. Box-box merupakan representasi dari ruang-ruang program arsitektur
MAX. INTENSITY
Maximizing the intenPeletakan massa cenderung ke sity of dengan the building by arah timur sisi luas pada bagian baratboxes. untuk merespon view stacking The tower mass is placed on the west of the site, to respond to the view of the Waduk Melati.
cascade terrace Teras dibuat pada setiap lantai berundak sebagai area alfresco dining. View pada cascade terrace ini menghadap ke kantor sewa yang menjadi bangunan tengaran kawasan, dan lebih jauh lagi mengarah kepada waduk melati
BUILDING FEATURE
KRITERIA zona dan ntar privat pengguna aman dan nyaman
komersial an intensian peraturan
GREEN p suasana kan tidak sana hijau itu. Memadi ramah terhadap kota
3
4
Dilakukan adjustment bentuk box menjadi box dalam beragam jenis ukuran yang disesuaikan dengan kebutuhan ruang retail yang fleksible.
Dilakukan pencopotan box-box uang menjadikan bangunan menjadi lebih porous. Hal ini bertujuan menciptakan ruang permeabilitas tinggi pada sirkulasi pedestrian.
be Permainan bentuk box yang bemadejugato formpengalavarious ragam membuat man ruang berbeda types ofyang boxes bydengan doing
Selain itu, hal ini sebagai respon to make a penghawan building pomenghadirkan dan pencahayaan bangurous. this alami aimspada creating nan.
PUSH-PULL
Adjusting the box are
substraction and addition to the box. (push and pull)
sustainability aspect Aspek terkait sustainability padaproyek ini diantaranya konservasi air, pemanfaatan energi surya, serta optimalisasi penghawaan dan pencahyaan alami pada ruang dalam bangunan.
pocket garden proposed public park Pcoket garden dibuat juga sebagaiarea Area hijau bangunan didesain menjadi dining. Lebih jauh daripada itu. dengan sebuah plaza publik atau taman, yang adanya pocket garden. Podium rimbun. Dapat digunakan untuk event mendapatkan pencahayan dan penghaspace maupun untuk bersanta. terrace is functioned as alfresco dining area. waan alami. Adanya pocket garden menstimulasi terjadinya stack the effectcascade pada terrace has direct view to waduk ruang podium denga pocket garden lain melati and rental office, which is located in nya.
CASCADE TERRACE
front of project. connecting bridge terdapat connecting bridge yang menghubungkan langsung dengan stasiun BNI city. Selain itu pada level basement 2 juga terdapat koneksi langsung yang pocket garden is also functioned as dapat menghubungkan dengan MRT Dukuh Atas dining area. pocket garden also has
POCKET GARDEN
alfresco a function as a natural ventilating and lighting for the project.
CONNECTING BRIDGE
connecting bridge is functioned as a connector between BNI city station to the project. There are also connection between underground MRT to the project on the basement 2 level
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PERMEABLE
takedown some boxes
high permeability space and also a response for natural ventilating and lighting.
5 Menjadikan area area teras, pocket garden menjadi ruang hijau. Bertujuan untuk menciptakan suasana hijau dan berkontribusi positif pada ruang hijau kota.
GREEN TERRACE
making the terrace becomes a green space. Aiming to create green atmosphere green and contributing positively to the city.
SUSTAINABILITY ASPECT
there are water conservation, solar energy harvesting, natural ventilating and lighting on the comercial area
PROPOSED PUBLIC PARK
the green area designed as a flexible public park, used as an event space. alfresco dining, or even for relaxing.
GREEN BUILDING CONCEPT WATER CONSERVATION
rainwater
NATURAL VENTILATION
water tanks
pocket garden
wtp
cross ventilation
stack effect
water conservation sun radiation
natural ventilation
SUN RADIATION
BASELINE:
ITERATION-1:
ITERATION-2:
from the sun radiation analysis, the average sun radiation on building is 752,67255 kWh/m2
from the sun radiation analysis (iteration-2), the sun radiation on the building is 566,150 kWh/m2. The average sun radiation is decreasing, up to 24.8% from the baseline.
from the sun radiation analysis (iteration-3), the sun radiation on the building is 430,44 kWh/m2. The average sun radiation is decreasing, up to 42.8% from the baseline.
--
sun-shading on the west-east facade
pull-push on the north-east facade.
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1
6
3
4 7
2
5
//groundplan legend: 1. double decker cycle parking (100 lot) 2. event area 3. retail drop-off 4. apartment and hotel drop-off
5. transit plaza 6. apartment lobby 7. hotel lobby
fnb retail shop retail
16
32
//facade expression
26
64m
//b2 fl plan
//b1 fl plan
//2nd fl plan
//3rd fl plan
//4th fl plan
//5th fl plan
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b a b a b a b a //facade module
//module a
//module b
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//2 bedroom-b plan
// 1 bedroom plan
// 2 bedroom-A plan
//studio-A plan
//studio-B plan
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//building perspective from main road
//grand stair visualisation
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//building perspective from pedestrian pathway
//drop-off area and skybridge visualisation
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the sanctuery
32
04
The Sanctuery Reviving Pallikaranai Marsh & reinventing erys to confront water paradox in growing Chennai. Designing Resilience in Asia 2019 (Tainan, Republic of China) Honorable Mention Team: Fitra Febrina, Muhammad Zulfiqar, Modita Winurti, Ida Ayu Shanty P., I Nyoman Y Adiana, Aristyo Supervised by: Achmad Deni Tardiyana, S.T., MUD. The shrinking of Pallikaranai Marsh is considered a serious phenomenon in the growing Chennai. It affects many aspects of the city and its communities. Unplanned growth in Chennai causes various problems such as, flood, groundwater depletion and salination, water pollution and shrinking of waterbodies -which are mostly and closely related to water. The monsoon season brings in flood, while the dry season results in a scarcity of water. It can be concluded that there is an issue of water paradox. We should first understand that all the waterbodies belong to a single system. Hence, it is imperative to maintain not only Pallikaranai Marsh, but also the other waterbodies (e.g. erys) surrounding it to deal with this issue. Our proposal, the sanctuery, focuses on transforming all the waterbodies in Pallikaranai Marshland into a “sanctuary�, or a prominent place that is beneficial for both nature and the human being. This project aims to save Pallikaranai Marsh from further encroachments by tracing down the aquatic ecosystems in Chennai, and creating numerous interventions in ery, as the smallest scale of the water system in Chennai. The design strategy of this project consists of (1) Reviving Pallikaranai Marsh, and (2) Reinventing Erys. Reviving Pallikaranai is made up of 5 main tactics- buffer area setting, eco-tourism facility, green corridor, sponge vertical village, and waste-to-energy facility. While Reinventing Erys also has 5 tactics, which are buffer setting and dredging, overflow area, community center, flood resistant housing, and adaptive ery. This approach is the most feasible solution in India, especially in Chennai to reduce the impact of the water paradox issue. The reinventing erys approach can be replicated in all erys/lake especially in India, while The reviving Pallikaranai Marsh approach could be replicated to all marshland ecosystem. This project will not only reduce the risk of flood, but also improve the quantity and quality of water supply in the city, thus increasing the resiliency of Chennai.
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ISSUE
today, most of erys/lakes in Chennai have been disappeared under the rapidly growing urbanization of Chennai. Later, it causes the water paradox issues in Chennai; Chennai is suffering from water scarcity when it comes to the dry season, but it floods in rainy season.
CONCEPT PAST
PRESENT
WHAT IF
GOAL
archaelogical evidence shows that the practice of water conservation is deep rooted in the science of ancient India. In Tamil Nadu, there is one of the oldest water management system called Ery.
the number of erys in Chennai is decreasing today, most of them have disappeared under the rapidly growing urbanization of chennai, moreover, there are many erys around Pallikaranai Marshland is in endangered condition
we try to maintain the water system by proposing adaptive erys in the lost ery area and reviving its water bodies. so, the water system in Chennai is ‘connected’ from small erys to the big Pallikaranai Marshland
the development of this project will transform erys and Pallikaranai Marsh from abandoned to be a ‘sanctuary’ as one of the most relevant solution in designing resilience of Chennai
sanctuary A nature reserve;
ery
+
“A reservoir of water; A water conservation system.”
THE SANCTUERY
reviving Pallikaranai Marsh & reinventing erys to confront water paradox in growing Chennai.
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MASTERPLAN
35
01 REVIVING PALLIKARANAI MARSHLAND
36
37
EXISTING ERY
1
2
3
4
legend: 1: flood resistant settlement 2: community center as mitigation area
3: ery 4: overflow park
erys and waterlogged area are identified around Pallikaranai marsh, then we try to optimize the water catchment area to deal with water paradox as well as the support system of Pallikaranai marsh.
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ADAPTIVE ERY
1
2
3
legend: 1: flood resistant settlement 2: community center as mitigation area
4
3: ery 4: overflow park
we proposed adaptive ery on the waterlogged area which don’t have any erys on its surroundings especially on the area whivh has gone or replaced by another function.
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02 REINVENTING ERY
40
41
green ribbon
42
05
Green Ribbon Mixed-use Building in Manggarai Railway Station, Jakarta. AR 4099 Final Project Studio 2018 Supervised by: Achmad Deni Tardiyana, S.T., MUD. The project is located on west of Manggarai Railway Station, across from Pasaraya Manggarai and Bus Terminal. The main issues raised from the project are pedestrian circulation and green environment. This project consist of middle class residential typology and commercial typology in the form of lifestyle center. The intensity of the pedestrian between two transit points and site is very high. This is considered as an issue that needs to be responded into a design. In addition, the site does not have natural vegetation or green spaces. Globally, the lack of trees and green open spaces in the area increases urban heat . Therefore, green environtment is one of the issues taken in this project. Green environment indirectly contributes positively to the city. The designer proposes the basic design concept entitled “Green Ribbon�. Green Ribbon is the formation of building masses formed by the pedestrian circulation on the site that form the bands with green environment.
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CONCEPT
maximizing the buildable area, with responding tje public park
drawing lines between site’s anchor. railway station, bus terminal, and pasaraya manggarai
building shaped into three big masses
the building shape in the innercourt area shaped cuvilinearly, as a representation of ribbon shape
putting vegetation in the innercourt circulation area to strengthen green environment
A
2
7 5 3
6 2
1
2
4
B legend:
1: public park 2: bike parking 3: event space 4: retail drop off
C //siteplan
5: apartment tower 1 6: apartment tower 2 7: apartment drop-off
A: manggarai railway station B: bus terminal C: pasaraya manggarai
ANALYSIS
Distance analysis is a long distance related analysis of a specified point, running by Grasshopper (Smart Space Analyzer plug-in). By referring to these results, in planning and designing, we can measure the degree of permeability.
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0
8
16
32 m
2
5 3
6
2
1
2 4
legend: 1: public park 2: bike parking 3: apartment drop-off
//groundplan 4: retail drop-off 5: service area 6: event space
shop retail fnb retail apartment area
//b2 fl plan
0 12
24
48 m
//3rd fl plan
//b1 fl plan
//4th fl plan
//2nd fl plan
//5th fl plan
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MIXED-USE BUILDING PADA AREA STASIUN MA
2 bedroom
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2BR-A
2BR-A
3 bedroom
studio
//apartment plan
ST-A ST-A
ST-A 2BR-B
ST-A ST-A
ST-A
ST-A
3BR-A
ST-A
3BR-B
3BR-B
ST-A
3BR-A
ST-A
2BR-B
ST-A
ST-A ST-A
ST-A
ST-A ST-A
2BR-A
2BR-A
//3 bedroom plan-A
//3 bedroom plan-B
//2 bedroom plan-A
//2 bedroom plan-B
//studio-A
//studio-B
FACADE EXPRESSION
47
//event space visualisation
//night visualisation
48
//day visualisation
//visualisation from public park
49
50
//bird’s eye perspective
51
wale rempe doud
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06
Wale Rempe’ Doud Tourism Information Center Sayembara Propan 2019 3rd Winner (Category: Likupang) Team: Mohammad Thareq Defa & Mochamad Ridwan Fauzi Marine tourism is starting to shine, thus Likupang is one of priority destination for marine tourism. Home (Wale) near the sea (Rempe ‘Doud) as a tourist information center projected to not only be a information center for tourist but also becomes a place where local people and tourists meet. Public areas on the ground floor consist of event plaza, pilotis amphitheater, space workshops, flower gardens, and decks.
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MASSING CONCEPT kantor pengelola pusat informasi
musala
i
anta np ada mp 0m) s se 0-10 (5
toilet
gari
0 100
ruang display & lounge
m2
amphiteater
m
en
uju
ruang auditorium
pa
nt ai parkir
LOCATION
MASS
FUNCTION
EXPRESSION
SENSE OF ENCLOSURE
FINAL RESULT
located at the seafront. seafront is the most strategic area for TIC in marine tourism.
proportion and elements of the building (column, stair, roof) adapted from Walewangko
double volume mass inspired by Walewangko, traditional house of Minahasa.
breakdown the facade massing into terrace-shape look for making sense of enclosure and scale
the upper floor is functioned as primary function, information center.
building’s expression shows spirit of locality with a touch of modernity.
BUILDING FEATURES
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//plaza
//sunset deck
//flower garden
//sunken amphiteathre
//multimedia display
//likupang history installation
rumbia
wood structural system
various density of wood facade
information display area
public pilotis flower garden
event plaza for public activity
Ulin wood
Cempaka wood
Nantu Rumbia wood
main structure
facade, display, furniture
roof roof cover strcutre
River Steel stone wall facade structure
Plaster wall
Glass
eksterior and interior wall
facade and furniture
55
//interior visualisation on the 2nd floor
LEGEND
B PANTAI
16
14 FL +0.100
11
A
12
15
6
c
e
4
8
7
FL -1.000
b
1. Lobby & receptionist 2. Information display & area 3. Multimedia display 4. Audio Visual / Workshop 5. Toilet 6. Prayer room 7. Difable Toilet 8. Nursing Room 9. Staff and admin 10. Storage 11. 12. 13. 14. 15. 16.
5
KE L2
a
FL ±0.000
Pilotis amphiteathre History of Likupang landmark Flower garden Sunset deck Event plaza Water catchment area, septic tank, water tank
13
17
18
B
JALAN
Denah Lantai Dasar 0
3
15 m
6
FURNITURE/INTERIOR
d
e
FL +2.100
d
1
2
d
FL +2.100
DARI L1
3 d FL +2.100
9
10
Denah Lantai 2 0
56
3
6
15 m
DARI L1
a. b. c. d. e.
Historical display UMKM product display & announcement display Built in storage Digital display, tourism info & craft Boat as landmark & multimedia screen
Coconut
Thatch
Lily
Chrysan
Dahlia
//landscape concept
Plaza event
Amphiteatre pilotis
Tangga
Layar proyektor
Area display dan informasi Sunset deck
Landmark dua perahu
Landmark dua perahu Layar Proyektor
Drainase dengan cover pebble wash
Ramp Taman bunga
potongan a
potongan b
3
0
15 m
6
0
3
Landmark 2 perahu
Taman Bunga Area Informasi di L2
Ruang Audio Visual / Workshop Musala
View Deck
Skylight
TAMPAK DARI PANTAI 0
3
TAMPAK SAMPING KANAN 15 m
6
Plaza event
15 m
6
0
Skylight
Taman Bunga
3
15 m
6
Louvre udara
Ramp
View Deck
Ramp
TAMPAK DARI JALAN 0
3
6
Tangga
TAMPAK SAMPING KIRI 15 m
0
3
6
15 m
//landscaping concept in front of wale rempe doud
57
//sunken amphiteathre and display visualisation
//information center visualisation
58
//digital display visualisation
//plaza visualisation
59
60
//visualization from beach side
61
62
chapter 02: architecture works
this chapter consists of architectural studio assignment, internship, and competition between 2015-2018
63
Project type: AR3190 Studio Assignment Typology: Midrise Rentail Office //W Tower: Midrise rentai office in Bandung
Project type: AR3190 Studio Assignment Typology: Budget Hotel //Sulanjana Budget Hotel
Project type: AR 4090 Studio Assignment Typology: Mixed-use Building //Balancea Project : Mixed-use Building in Kebonjati, Bandung.
64
Project type: AR4090 Studio Assignment Typology: Residential //Rancacili Residence: Middle-class housing in Rancacili, Bandung.
Project type: AR3290 Studio Assignment Typology: Creative Center //Bandung Creative Center Project type: AR3190 Studio Assignment Typology: Budget Hotel
Project type: Computational Design Studio Typology: Residential Involvment: BIM Modelling (Revit) //TD House
65
Project type: Competition (Sinar Mas Land Young Architect 2019 - Residential Category) Typology: Residential
//Vanantara Residence: Residential Project in Bumi Serpong Damai, Tangerang Selatan
Involvement: Masterplanning and housing design concept.
Project type: Competition (Sinar Mas Land Young Architect 2019 - Commercial Category) Typology: Commercial (Apartment Business Loft)
&
Involvement: Siteplanning concept //Stacking Village: Apartment and Business loft in Bumi Serpong Damai, Tangerang Selatan.
Project type: Design Proposal (by PTI Architects) Typology: Resort Involvement: visualization touch-up (by photoshop) for client meeting material //Tiwoho Creative Economy Regional Masterplanning
66
Project type: Design Proposal (by PTI Architects) Typology: Masterplanning
//Morotai Economy Creative Regional Masterplan
Involvement: parcell divisioning of 2d masterplan; masterplan touch-up (by photoshop) for client meeting material.
Project type: Design Proposal (by PTI Architects) Typology: Masterplanning Involvement: 3d-making of masterplan option for client meeting material. //Batam Masterplan
Project type: Design Proposal (by PTI Architects) Typology: Resort Involvement: 3d-making of masterplan and villa (private villa area); //Six Sense Uluwatu, Bali
67
68
chapter 03: other proficiency
this chapter consists of architectural studio assignment about my proficiency between 2015-2019
69
01
MACRO CLIMATE ANALYSIS project type application year
: digital architecture assignment : rhinoceros+grasshopper (ladybug plug-in) : 2018
SUN RADIATION DIAGRAM
(left) sun radiation diagram (center) Chart of Global Horizontal Radiation
(left) sun radiation diagram (center) Chart of Direct Normal Radiation
(left) sun radiation diagram (center) Chart of Diffuse Horizontal Radiation
HUMIDITY
70
TEMPERATURE
graphic of relative humidity (per month)
graphic of dry bulb temperature (per month)
graphic of dew point temperature (per month)
contour of relative humidity (per month)
countour of dry bulb temperature (per month)
countour of dew point temperature (per month)
3D contour of relative humidity (per month)
3D countour of dry bulb temperature (per month)
3D countour of dew point temperature (per month)
the climate analysis is located on Jakarta, Indonesia.
WIND DIAGRAM
based on weather tools analysis, we may conclude that the most dominant wind distribution is from west and north-east side with the highest velocity up to 30 km/h and the average wind velocity is about 20 km/h.
PSYCHROMETRIC DIAGRAM
wind speed
: 0.5 m/s
wind speed
: 1.5 m/s
wind speed
: 1 m/s
wind speed
: 2 m/s
diagrams above are 4 psdiagram psychrometric with various wind speed (0,5 m/s; 1m/s, 1.5 m/s, dan 2 m/s.)
71
02
MICRO CLIMATE ANALYSIS project type application year
: digital architecture assignment : rhinoceros+grasshopper (ladybug plug-in) : 2018
IRRADIATION DURATION ANALYSIS
The entire roof is illuminated in more than 934 hours. While the walls of the building have varying degrees of radiation from 280 to 840 hours. The illumation is affected of some factors; the height of the tower and also distance between towers.
site
SKYVIEW FACTOR (SVF) ANALYSIS
1 4
2
1
3
2
3
4
Sky View Factor is an analysis of the condition of the sky at a point with a dome representation. In condition no.3 is the highest SVF percentage because at that point there is no building mass that allows to obstruct the view towards the sky.
SHADOW ANALYSIS
the shadow area is obtained from buildings that have an average height above 20 floors. So that in some very dense parts, there are areas that are quite dark exposed to the shadow of tall buildings.
72
03
SUN RADIATION ANALYSIS (BUILDING) project type application year
: digital architecture assignment : rhinoceros+grasshopper (ladybug plug-in) : 2018
From the sun radiation analysis, the average sun radiation on building is 752,67255 kWh/ m2
BASELINE:
initial condition
the sun radiation on the building is 566,150 kWh/m2. The average sun radiation is decreasing, up to 24.8% from the baseline.
ITERATION 1:
sun-shading on the west-east facade
the sun radiation on the building is 430,44 kWh/m2. The average sun radiation is decreasing, up to 42.8% from the baseline.
ITERATION2:
pull-push on the north-east facade.
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04
NATURAL DAYLIGHT ANALYSIS project type application year
: digital architecture assignment : rhinoceros+grasshopper (ladybug plug-in) : 2018
MODEL BASELINE dark grey paint vertical blind
ITERATION 1 light grey paint (reflectance: 0.802)
Iluminansi rata-rata Daylight Factor Uniformity Glare
: 286 lux : 1.05% : 30.67% : Inperceptible glare
Iluminansi rata-rata Daylight Factor Uniformity Glare
: 542 lux : 2.3% : 49.87% : Inperceptible glare
Iluminansi rata-rata Daylight Factor Uniformity Glare
: 776 lux : 2.6% : 64% : perceptible glare
put off vertical blind
ITERATION 2 put a shelf as reflector
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05
ENERGY ANALYSIS project type application year
: digital architecture assignment : rhinoceros+grasshopper (honeybee plug-in) : 2018
MODEL BASELINE
WWR North WWR East WWR South WWR West
: 70% : 70% : 70% : 70%
Net Site Energy Total Building Area EUI
: 549,223.151 kWh : 3400 m2 : 161.536 kWh/m2
no shading on all side of facade
//cooling load: 88.62 kWh/m2
ITERATION 1
//elec. load: 37.9 kWh/m2
WWR Utara : 70% WWR Timur : 50% WWR Selatan : 70% WWR Barat : 50%
//elec. equiptment load: 35.01 kWh/m2
Net Site Energy Total Building Area EUI
: 534,684 kWh : 3400 m2 : 157.26 kWh/m2
no shading on all side of facade
//cooling load: 84.35 kWh/m2
ITERATION 2
//elec. load: 37.9 kWh/m2
WWR Utara : 70% WWR Timur : 50% WWR Selatan : 70% WWR Barat : 50%
//elec. equiptment load: 35.01 kWh/m2
Net Site Energy Total Building Area EUI
: 504,730 kWh : 3400 m2 : 148.45 kWh/m2
adding 3 horizontal louvre on each west and east facade (1.5m)
//cooling load: 75.54kWh/m2
//elec. load: 37.9 kWh/m2
//elec. equiptment load: 35.01 kWh/m2
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06
WIND ANALYSIS project type application year
: digital architecture assignment : rhinoceros+grasshopper (butterfly plug-in) : 2018
MODEL BASELINE
B
OUTLET
A
// top view
The pressure in this room is quite high. It happens because the size of the inlet isn’t equal to the size of the outlet. Also, there is no cross ventilation in this room. So, the natural ventilation process is not optimal. //elevation B
//elevation A
MODEL ITERASI INLET
B
C OUTLET
// top view
Iteration: putting the vent-hole lower than the baseline and add a window as an outlet. In the cross-ventilation principle, the inlet and outlet need to be crossing for a maximum result. also, the move of the vent-hole aims releasing the hot air to move up and out of the room through the outlet
76
//elevation C
//elevation A
//elevation B
3D-MODELLING project type application year
: computational studio assignment : revit : 2016
1 R. TIDUR
3
2800
TOILET 5 m² -0.03
2500
7 m² +0.00
R. TIDUR
10 m² +0.00
15 m² +0.00
7 8
HALAMAN 58 m² -0.20
3700
TAMAN 23 m² -0.30
9 3000
A
3000
B
3000
3000
C
D
3000
E
R. TAMU
GUDANG
R. TIDUR
HALAMAN
R. UTAMA
R. CUCI
TAMAN
R. MAKAN
TOILET
ROOM SCHEDULE Name
AR-2250
Level
Area
judul tugas:
tugas 3: pemodelan bim dasar
4 m² 2 m² 10 m² 3 m² 10 m² 5 m² 15 m² 11 m² 10 m² 13 m² 39 m² 7 m² 2 m² 11 m² 42 m² 23 m² 7 m² 58 m²
1% 0% 3% 1% 3% 1% 4% 3% 3% 4% 11% 2% 1% 3% 12% 6% 2% 16%
11 m² 4 m² 7 m² 20 m² 50 m² 362 m²
3% 1% 2% 5% 14% 100%
DENAH LANTAI 1 Single-Flush: 36" x 84" 2 Single-Flush: 36" x 84" 2 Single-Flush: 700 Single-Flush: 800 Single-Flush: 700 Single-Flush: 800 Single-Flush: 800 Single-Flush: 800 Double-Glass 2: 68" x 80" Sliding-2 panel: 68" x 80" Sliding-2 panel: 68" x 80" One-Pane_Sliding_Doo r_4854: 0600 x 2100mm One-Pane_Sliding_Doo r_4854: 0600 x 2100mm Double-Panel 2: 60" x 82" Single-Flush: 700 DENAH LANTAI 2 Double-Glass 2: 68" x 80" Single-Flush: 800 Single-Flush: 750 Single-Flush: 800 Sliding-2 panel: 72" x 84" 2 Grand total: 20
11 m² +3.40
BALKON 4 m² +3.40
Level
Count
Height
2134
DENAH LANTAI 1 1
800
2134
DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1
1 1 1 1 1 1 1
700 800 700 800 800 800 1580
2134 2134 2134 2134 2134 2134 2134
DENAH LANTAI 1 1
1727
2134
DENAH LANTAI 1 1
1727
2134
DENAH LANTAI 1 1
900
2100
DENAH LANTAI 1 1
900
2100
DENAH LANTAI 1 1
1600
2083 2134
DENAH LANTAI 1 1
700
DENAH LANTAI 2 1
1580
2134
DENAH LANTAI 2 1 DENAH LANTAI 2 1 DENAH LANTAI 2 1 DENAH LANTAI 2 1
800 750 800 2800
2134 2134 2134 2134
20
3000
3000
B
C
3000
D
3000
R. KOSONG R. TIDUR
E
3000
F
G
//1st fl plan
//2nd fl plan
DENAH LANTAI 1 1 : 100
1
Family and Type
Level
Width
DENAH LANTAI 2 1 : 100
Height
lembar: 1/5
800
R. DUDUK
WINDOW SCHEDULE
tanggal: 04/05/2016
Width
nim: 15214011
BALKON
7
9 A
DENAH LANTAI 1 1
6 8
G
DOORS SCHEDULE nama: mohammad thareq defa
Family and Type
Precentage
pembimbing: ir. hidayat amir
Room Legend
R. TIDUR
3000
1
DENAH LANTAI 1 R. TIDUR DENAH LANTAI 1 TOILET DENAH LANTAI 1 DAPUR DENAH LANTAI 1 TOILET DENAH LANTAI 1 R. TIDUR DENAH LANTAI 1 TOILET DENAH LANTAI 1 R. TIDUR DENAH LANTAI 1 R. TIDUR DENAH LANTAI 1 R. TIDUR DENAH LANTAI 1 R. MAKAN DENAH LANTAI 1 R. UTAMA DENAH LANTAI 1 R. TAMU DENAH LANTAI 1 GUDANG DENAH LANTAI 1 R. CUCI DENAH LANTAI 1 TAMAN DENAH LANTAI 1 TAMAN DENAH LANTAI 1 TAMAN DENAH LANTAI 1 HALAMAN DENAH LANTAI 1 DENAH LANTAI 2 R. TIDUR DENAH LANTAI 2 BALKON DENAH LANTAI 2 R. KOSONG DENAH LANTAI 2 BALKON DENAH LANTAI 2 R. DUDUK DENAH LANTAI 2 Grand total: 23
5
DAPUR
3000
F
3
4
Room Legend
6
R. TIDUR
11 m² +0.00
500 1150
R. TIDUR
2
1850
5
R. TAMU
42 m² -0.3
50 m² +3.40
1850
39 m² +0.00
13 m² +0.00
R. DUDUK
4
R. UTAMA
R. MAKAN
7 m² +3.40
20 m² +3.40
2
1000
2 m² -0.03
TAMAN
1 R. KOSONG BALKON
10 m² +0.00
1000
10 m² +0.00
2800
7 m² -0.30
3 m² -0.03
DAPUR
11 m² +0.00
2500
TAMAN
TOILET
R. CUCI
2500
2 m² +0.00
500 1150
4 m² +0.00
2500
GUDANG R. TIDUR
TOILET
3700
07
DENAH LANTAI 1 Fixed: 36" x 48" Fixed: 36" x 72" Fixed: baru Fixed: baru Fixed: baru Fixed: 450 Fixed: 36" x 72" Fixed: 36" x 72" Fixed: kamar Fixed: 36" x 72" 2 Fixed: 36" x 48" 2 Fixed: 36" x 48" 2 Fixed: 950 Fixed: 950 Fixed: 950 DENAH LANTAI 2 Fixed: 1100 Fixed: 1100 Fixed: 950 Fixed: 950 Fixed: 950 Fixed: 850 Fixed: 850 Fixed: 1200 Fixed: 1445 Fixed: 1200 Fixed: 1200 Fixed: 1200 Fixed: 1200 Fixed: 1200 Fixed: 1200 Fixed: 450 3 Fixed: 1445 Grand total: 32
DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1 DENAH LANTAI 1
500 914 600 600 600 450 914 914 450 1000 1100 1100 950 950 950
2000 2000 1000 1000 1000 500 2000 2000 2000 2000 2000 2000 1200 1200 1200
DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2 DENAH LANTAI 2
1100 1100 950 950 950 850 850 1050 1400 1050 1050 1050 1050 1050 1050 450 1400
1200 1200 1200 1200 1200 1200 1200 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000
AR-2250
judul tugas:
nama: mohammad thareq defa
tanggal: 04/05/2016
pembimbing: ir. hidayat amir
tugas 3: pemodelan bim dasar
nim: 15214011
lembar: 2/5
//schedule AR-2250
judul tugas:
nama: mohammad thareq defa
tanggal: 04/05/2016
pembimbing: ir. hidayat amir
tugas 3: pemodelan bim dasar
nim: 15214011
lembar: 5/5
1
PERSPEKTIF 1 1 PERSPEKTIF 1 1:1 1 1:1
PERSPEKTIF 1 1:1
2
PERSPEKTIF 2 1:1
PERSPEKTIF 2 2 PERSPEKTIF 2 1:1 2 1:1
1
//perspective 3
1
PERSPEKTIF 1 1:1
2
PERSPEKTIF 2 1:1 PERSPEKTIF 3 3 PERSPEKTIF 3 1:1 3 1:1
AR-2250
pembimbing: ir. hidayat amir
AR-2250 AR-2250
judul tugas: judul tugas:
PERSPEKTIF 3 1:1
PERSPEKTIF 4 4 PERSPEKTIF 4 1 : judul 1 4 tugas: 1:1 tugas 3: pemodelan bim dasar
4
nama: mohammad thareq defa
tanggal: 04/05/2016
nim: 15214011
lembar: 3/5
PERSPEKTIF 4 1:1
EXPLODED AXONOMETRY 1:1
//axonometry
AR-2250
judul tugas:
nama: mohammad thareq defa
tanggal: 04/05/2016
pembimbing: ir. hidayat amir
tugas 3: pemodelan bim dasar
nim: 15214011
lembar: 4/5
nama: mohammad thareq defa tanggal: 04/05/2016 nama: mohammad thareq defa tanggal: 04/05/2016
pembimbing: ir. hidayat amir tugas 3: pemodelan bim dasar nim: 15214011 pembimbing: ir. hidayat amir tugas 3: pemodelan bim dasar nim: 15214011
lembar: 3/5 lembar: 3/5
77
06
78
MODEL WORKS project type year
: architectural studio assignment : 2015-2018
79
07
80
PHOTOGRAPHY WORKS project type year
: personal collection photography : 2015-2018
81
td