Incremental Resiliency Thesis Booklet

I NC REMENTA L RESI LIENCY THESIS JOURNAL APBL90169 | DESIGN THESIS YEAR 2020 | SEMESTER 2 SUPERVISOR | DAVID O’BRIEN 926747 | ARIEL FLORES

THE UNIVERSITY OF MELBOURNE | MELBOURNE SCHOOL OF DESIGN

PREFACE

My name is Ariel, I am highly interested in exploring suitable methods of housing in adverse locations. Originally exploring research of natural hazards and disasters, this opened up

avenues into exploring existing typological housing models in place and by understanding the success and failures from these cases, how can this project address the issues they are facing and evolve the housing model even further.

At the beginning of this thesis, I was faced with attempting to deal with disaster-related architecture and through my research, it became apparent that building for disaster is quite

a complex issue. I persisted with disaster-related architecture, the way I saw it was how

architecture responds to such disasters and natural hazards. When building in a location with any amount of populace and hard structures, when a natural hazard occurs in this area then

it is called a disaster. The term ‘natural disaster’ started to become foreign and my focus was trying to minimise risk and destruction. While my inner humanitarian wanted to resolve this issue, I knew this is something that could not be resolved with a single building or even an architectural premise.

This prompted me to explore the architecture and building that rebuilds from disaster-

affected areas and accommodates displaced persons. ‘Build back Better’ became apparent

when attempting to design in this manner. A building system and architectural typology that

eludes to do this in incremental housing, this way of building can be seen informally, where the additions and modifications are built over time to accommodate the spatial needs of the

inhabitant. Formally in a building system and architecture, the housing location is provided with a ‘sites and services’ method and the inhabitant build upon their home and making expansions where needed. This type of building system intrigued me and I wanted to explore more how this system can be applied and if it can benefit a location like the Philippines. 2

Disease

COVID

Public Health

Sea level rise

Aquatecture

Skyliving

Vetical Farming

Fossil fuels

Climate

Underground

Change

Urban Utopia

Mars

Occupation

Infrastructure

Man Made

Commercial Civic

Designing for disaster

Shelter

Temporary

Natural Hazards

Health

Public

Recovery Pemanent

Private

Earthquake

Typhoon/

Hurricane

Flooding

Landslide/ Mudslide

Housing

Build back better

Multi-

Residential Informal

Settlement Single

Dwelling

Mind mapping journey and process through thesis framing.

INCREMENTAL HOUSING

CONTENTS RESEARCH 1.0

Incremental Resiliency

7

3.0

Strategy

33

2.0 4.0

Incrementalism Study Location

DESIGN

41

5.0

Concept Design

77

7.0

Resolved Design

103

6.0

Sketch Design

BIBLIOGRAPHY 8.0

References Figures

APPENDIX 9.0

10.0

4

11

Explanatory Works

Superseded Works

87

161

CONTENTS

cultural appropriability. It responds by manipulating standardised building systems. The result is aimed to provide an alternative form

using modular processes and Elemental’s strategy of resident

diversity and looking to reveal strategies in designs located in

Baguio, Philippines. Using examples of the existing locale to provide

designs that accommodate the residents’ changing needs, which ultimately functions as a resilient system to endure the current and

PROJECT

future generations to come.

SKETCH

expectations of future outcomes; can iterate anticipated modular

CONCEPT

managed improvements; one that better appreciates the cultural

RESEARCH

This thesis challenges the issues relating to incremental housing and

THESIS

THESIS STATEMENT

BIBLIOGRAPHY

APPENDIX 5

1.0 INCREMENTAL RESILIENCY DESIGN PROPOSAL

6

THESIS THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

7

Figure 1.0 Satellite of Baguio City

1.1 DESIGN RESEARCH

8

THESIS

has been obtained through archival, GIS, internet mapping sources, property real estate, site

With assistance from relatives working in the design and construction field, the location in

Baguio, Philippines, consisted of initial research analysing susceptible areas of typhoons, rainfall and landslide risk in the mountainous region and determining suitable locations for

Data collection of Baguio were systemized that involved the production of contextual analysis and a series of diagrammatic architectural drawings. These drawings were prepared to identify data was then speculated on the susceptible limitation and regulating factors at each given

site. Together these research approaches provide a methodological toolkit to understand suitability to accommodate the inhabitant’s requirements.

BIBLIOGRAPHY

the multi-faceted issues at Baguio and investigate the incremental housing model and its

PROJECT

the typical spatial conditions and to provide further insight into living arrangements. This

SKETCH

a potential site.

CONCEPT

surveys, trace analysis and literature reviews (Groat & Wang, 2013; Yin, 2013; Zeisel, 2006).

RESEARCH RESEARCH

This research is a mixed-methods secondary sources due to COVID-19 travel restrictions. Data

APPENDIX 9

2.0 INCREMENTALISM

10

responds to housing is Incrementalism. This building methodology accommodates

immediate needs while delivering multiple options for future expansion (Fabrizi, 2019). develop their future home.

This typically starts where the architect and builders provide the site and services like the structural shell and initial services of the house and the remaining (unfinished) parts of the house are completed by the resident (O’Brien, Carrasco, & Dovey, 2020).

This building typology is evident in multiple projects around the world. Where the formal

APPENDIX

FORMALISING THE INFORMAL

BIBLIOGRAPHY

PROCESS

PROJECT

Extensively this type of construction lowers cost through the inhabitant to self-build and

SKETCH

A particular building typology that can respond to the emergency and resiliency of housing

CONCEPT

INCREMENTAL RISE

RESEARCH RESEARCH

+

THESIS

+

incremental architecture aims to develop a higher standard of living and even for the recovery after disaster struck places, its informality of settlement makes this typology work cohesively and complex (Dovey, 2015).

11

2.1 PRECEDENTS

12

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

13

PREVI

LIMA, PERU | 1969-1976 | PETER LAND, JAMES STIRLING

PREVI (Proyecto experimental de vivienda) was a UN sponsored a project in Lima, Peru led by architect Peter Land. The project was a master plan consisting of several 1 – 3 storey

housing schemes to develop communities within large neighbourhoods (Fabrizi, 2019). The project called for 26 schemes which consisted of 13 local and 13 international designers including award-winning architects like Stirling, Alexander, Kurokawa, Correa and van Eyck

(O’Brien et al., 2020). Through follow up research after decades upon the original scheme, the

architecture evolved from its intentions where many buildings were extended vertically four to five storeys.

James Stirling’s proposal intended that the house be completed at ground level where the

house owners to complete the above storeys in ‘self-building’ styles. Stirling proposed a

growth plan of the house in stages of a four-person (4P) house into an eight-person (8P+) house. These multiple expansions were presented as the typical method of growth and how

this evolves beyond the original dwelling and would go on to continue as the house grows (Aalam, 2012).

RESEARCH REFLECTION:

Stirling’s approach to incremental building supported the resident’s interests and family

spatial requirements. The diagram depicting the plans of the gradual build was inclusive of family size from 4, 6 and 8 persons and also a shopfront accommodated the scheme to be

successful as it included a variety of options where the residents can opt for. The insight from

this study benefits my design research by exploring a ‘base option’ (sites and services) that expands with age and complexity.

14

THESIS

RESEARCH RESEARCH

Figure 2.12 Orthographic drawing of residential iteration from James Stirling

CONCEPT

Figure 2.11 Design decisions through incremental building processes.

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.13 PREVI’ - Stirling’s scheme 1978 and 2003 15

QUINTA MONROY IQUIQUE, CHILE | 2003 | ELEMENTAL

Quinta Monroy located in downtown Iquique, Chile in 2003 was a major success in resolving the 30 years of illegal occupation and settle 100 families in the 5000sqm of Quinta Monroy (Carrasco & O’Brien, 2018; Charlesworth, 2014; Elemental, 2016). This structure followed

the initial premise of the ‘Half-a-House’ concept. Albeit this building typology came with repercussions unforeseen by the architects and designers. Leaving the complex to develop

encroachments and disputes amongst neighbouring residents, resulting in poor living quality and ongoing construction beyond the intended build.

Elemental’s approach to incremental building managed to provide a solution to low-income families and residents with the support of a formalised structure. By providing a structural foundation where the resident can expand to their spatial needs, this offered practical

solutions in which residents appreciated and take advantage of the unregulated freedom to

build. I believe this case is very useful in studying the intentions of the architects and then the actual implications from the residents.

RESEARCH REFLECTION:

The follow-up studies from (Carrasco & O’Brien, 2018) criticise the lack of anticipation where residents would build beyond expectations, where these additional self-builds were unsafe

and started disruption amongst the neighbours due to the privatisation of public space. This is an important lesson to consider when approaching incremental housing. It predicates the notions while the house or housing feature can expand even with demonstrated

anticipations from the residents, the reality of self-building is extremely complex resulting

in unforeseen and negative situations (Goethert, 2012). Reading and evaluation from the lessons from the post-occupancy evaluations, I believe it is important to think about the

informing influences in this locale, furthermore how design can improve the living quality and endure change in these particular settings.

16

THESIS

RESEARCH RESEARCH

CONCEPT

Quinta Monroy - Incremental housing from Elemental Strategy

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.14 Quinta Monroy built before occupation (left) and residential occupation (right) 17

VILLA VERDE

CONSTITUCIÓN, CHILE | 2010 | ELEMENTAL

This project follows similar principles from the previous Quinta Monroy where Approaching the ‘Half-a-House’ concept from another angle. While not originally designed as a humanitarian response to the recent 2003 earthquake, was successful in the quality of build and achieving a high standard construction of 448 homes, in which half of the houses were offered to the survivors (Aravena, 2014; Charlesworth, 2014). This allowed some research into the effectiveness of living spaces, urban design and shared public spaces. Also noted that this project was an attempt to regulate the residents’ skills was by limiting the build through their construction of the uniform pitched roof amongst all the houses. This concept proved successful in doing but also opened another avenue for residents to expand (O’Brien et al., 2020). Upon learning the design philosophies from Elemental and their synthesis approach to housing, though many of their projects including Copiapó, Antofagasta, E-house, and Chiguayante (not included in this journal). Their premise has evolved around participatory design with the idea of space expansion. The insight of this project allowed exploration of how they have used design to shape their previous failures of lacking qualities like in Quinta Monroy. These changes resulted in a build-limiter that prevents the user from the building except for where proposed. This was a clever method to restrict residents from building vertically (like in Quinta Monroy) where the subtle design of a pitched roof provided both shelters to weather and the iconic notion of home. This further resulted in creative expansion horizontally within the housing scheme, where the allotment of land wither being driveway or courtyard space out front became more enclosed and private. RESEARCH REFLECTION: With follow up studies from O’Brien et al. (2020), several issues arose with urban planning, site application, housing types and quality of living. These studies also allowed me to understand and criticise the design from an analytical point of view where Elemental’s approach formed a cookie-cutter application where its orientation and site application was disregarded and resulted in poorer living conditions. This is evident in their corner blocks and clusters where the Type A typical unit receives less lighting and ventilation when positioned on either an East or West facing block. This started to draw out the other flaws that this approach entails where the urban planning was optimised to only provide more housing units within the site, which also resulted in this awkward living spaces. An important topic was the allocated shared public spaces acting as the courtyard and cul-desacs, inevitably proved underutilised as parking areas (Zilliacus, 2016). It is critical to note that Elementals’ improvements in one way or another are small steps that open a whole lot of unforeseen issues. How I will use these examples and criticism are beneficial when designing for this multiplicity of users. 18

THESIS

RESEARCH RESEARCH

CONCEPT

Villa Verde Incremental housing from Elemental (Author provided)

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.15 Villa Verde built before occupation (left) and residential occupation (right) 19

MONTERREY (LAS ANACUAS) MONTERREY, MEXICO | 2010 | ELEMENTAL

In Santa Catarina, Elemental was commissioned to design a group of 70 homes for the middle-class neighbourhood. The density required evolved the previous application with Villa Verde, with climate conditions differing from the desert climate where adaptions were

made to accommodate the 600mm annual rainfall. Still imposing the ‘Half-a House’ idea,

where the difficult half is built to construction and government code, and the remaining half is self-built by the resident in a do-it-yourself capacity where this also ensures the satisfaction from the occupant with expansions to fit their preferences (Raisbeck, 2019).

Also noted that this project was an attempt to regulate the resident’s skills was by limiting the build through their construction of the uniform flat slab roof amongst all of the units. This concept proved successful in doing but also opened another avenue for residents to horizontally expand (O’Brien et al., 2020)

RESEARCH REFLECTION:

This project indicates variation in their design wherein different climate they have altered its

shell to provide its base system. It evident that they have taken lessons from Quinta Monroy

with limitations for vertical expansions by placing the slightly angled flat roof on top of 3 units to restrict resident further builds upwards. With other research indicating the shared

public space of the central courtyard being a particular issue open to negligence. As this space ‘belonged’ to almost all residents overtime the central courtyard developed years of contested space. The bare design while aesthetically provides a higher establishment of housing seemed to lack the incorporation of the public realm into its space. I think while this project’s method was somewhat successful in delivering what was required, a lot of

thinking did not fully develop the quality of space intended. In saying this, when applying to my project, I believe the public spaces should be informed by the residents and develop through their occupation and even further with their changing lifestyle. 20

THESIS

RESEARCH RESEARCH

CONCEPT

Monterrey Housing Incremental housing from Elemental

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.16 Monterrey built before occupation (left) and residential occupation (right) 21

2.2 OTHER PRECEDENTS

22

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

23

ARANYA SETTLEMENT INDORE, INDIA | 1978-1990 | BALKRISHNA DOSHI

Aranya is a sites-and services township for 40,000 people in Indore, India. In a ‘core-plus’ project that evolves upon the sites-and-services, where a large portion of the investment is spent on land and infrastructure. The architect and urban planner Doshi who started VSF in 1978, designed the Aranya masterplan as a for settlement where residents were given land to build their own houses incrementally (Kaza, 2010). The masterplan is also a mixedincome settlement with a majority of the land plots accommodated the poorest sector of the population. Within the settlement consisted of 35.32sqm plots which are all serviced; containing a core sanitary unit, washroom and toilet facilities with some also including a plinth and one room (Dovey, 2015; Kaza, 2010). VSF developed a hierarchy of shared open spaces ranges from semi-private to public, this also culturally resembled the urban fabric traditional neighbourhoods. The vertical extension and minor external expansions of the small house gave the residents the freedom to build where the design and layout acted as a controlled element. Through other develop regulations and allowances to the street and the house, VSF design eighty demonstrations houses to indicate possibilities and variations how the houses, extensions, staircases, projections and balconies can be interchangeable components creating different combinations within the same plot and basic core dimensions (Kaza, 2010). This also led to the variations of each residences’ Otla (a transitional space) which took many forms depending on the orientation, location and size of the plot land; making the space its own vernacular specific to the community settlement(Dovey, 2015). RESEARCH REFLECTION: This settlement explores the benefits of vertical and minor external expansions. Doshi’s demonstrated form variations of the housing with staircases, terraces as living spaces provided cohesive understandings of the housing’s intention (Dovey, 2012; Roy, 2005). Through various drawings and representations of the housing development over time, this formalisation of informal settlements became more apparent in terms of designing for the resident currently but also for the future occupations and activities. In my thinking and using these demonstrations to indicate the type of living, I believe is valuable in providing the spatial potential of these incremental expansions. It’s notable in understanding a project like this can only work if there is a supporting party like Doshi has taken the vernacular settings and identity of the residents into consideration, which then translates the project through its entirety (Barker & Langra, 2009). This type of thinking into the potential outcome is something I want to implement as it proves to provide success in the expected and unexpected reality of a ‘sites and services’ incremental. 24

THESIS

RESEARCH RESEARCH

Figure 2.22 Housing development overtime

CONCEPT

Figure 2.21 Form Variations of Aranya Social Housing: Staircases, Terraces, as Living Spaces

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.23 Photograph of Aranya Settlement Social Housing

25

HOUSES IN MEXICALI

MEXICALI, MEXICO | 1975-1976 | CHRISTOPHER ALEXANDER

In Baja California, in response to settlers migrating in search of work, the state governments proposed a self-help housing project in Mexicali (near the Mexico – United States border) The project suburb consisted of 2500 square feet (~230sqm) built with roads and essential water, electricity and sewerage services to the allotments where five families participated in the initial program. The architect Christopher Alexander and 13 students executed several processes of participatory design and construction practices with the informative qualities from Alexander’s text A Pattern Language: Towns, Buildings, Construction (1977). This pattern book design contained living elements and notions that frequently occurred in the built environment with spatial dimensions, structure, finishes and materials. The Houses in Mexicali became an exemplar case where the initial design was for the provided a new clarity for residents and built up their community and collective identity. However, in follow up studies it was evident the original design over seven years these houses developed their issues of complexity and neighbourly disputes. The method of construction and communal centric areas was phased into more conventional methods of construction (Fromm & Bosselmann, 194). Where the skills developed that originally built the community had changed into segregating and privatising these shared spaces. This resulted in new structures and relocating the main entrances for the houses. Ultimately this shift in collective identity grew disconnection between the original community. RESEARCH REFLECTION: Mexicali is an important case precedent to learn and explore its practical application from especially with follow up studies seven years later, this communicates the detail of how a participatory design process may be beneficial at the start of the design phase and even into occupation but several complications may not be considered (Rapoport, 1982). This project elaborates the complexity of social issues between architect and client relationship with differing visions and solutions to obvious problems. In doing so, explores where the role of the architect may or may not impede on the design process (Brydon‐Miller & Maguire, 2009). The valuable lesson in Mexicali is that people were encouraged and supported to learn how to both design and build. As time progressed their needs and aspirations changed and with additional financial capacity, they extended their houses. During this time, their ‘collective’ values changed and there was a competition over collective spaces (Hamdi & Turner, 1991; Sanoff, 2000). This is an issue that is evident in many participatory design processes and incremental projects, I think this need to be highly considered and provide a resolution that handles these enduring circumstances.

26

THESIS

RESEARCH RESEARCH

Figure 2.25 Mexicali’s layout seven years later

CONCEPT

Figure 2.24 The layout of Mexicali at completion

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.26 Entries from the street replaced those from communal space

27

CAGAYAN DE ORO

MINDINAO, PHILIPPINES | 2013-2015 | VARIOUS NGOS

The case of Cagayan de Oro, reports on the devastation and from Typhoon Washi (locally known, Sendong) on December 16-17, 2011 on a regional centre in Northern Mindanao in the Philippines. With more than 250,000 displaced people, about 40% of the city population this also resulted in 85% of the surrounding household mostly lived in by poor families and

informal settlements near the Cagayan River (Carrasco, Ochiai, & Okazaki, 2018). Shortly after

the typhoon, a state-led rehabilitation plan issues the focus on building 11,225 permanent houses. Resulting in the humanitarian agencies in building 86% of the households in

relocation sites located 7-20 kilometres away from the original homes(Carrasco, Ochiai, & Okazaki, 2016).

Three non-governmental organisations chose the housing type to build, following the Philippine government agencies minimum standards. These different housing type played

a major role in the quality of living the residents required and preferred. Also within the time of six months, residents progressively made improvements and modifications to the original

structures depending on their available resources and changing family needs and plans (Carrasco, Dangol, & Recio, 2014).

RESEARCH REFLECTION:

As a local example, this case was quite interesting as it takes into account the success and failures of this role as NGOs. The response was initially a great way to provide mass housing to displaced persons but the result was some of these prefabricated housing was uninhabitable

and were vacated due to its lack of suitability to a tropical environment. Even the housing units that were occupied proved to be insufficient, wherewith no regulations in place notable additions and modifications were made to accommodate the spatial requirements from

the residents. Using this precedent as it is closely related to the cultural and familial parts of the Philippines indicate the potential and resourceful solutions into the residents/ families making these modifications to their home. 28

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Figure 2.27 Original structures of disaster relief(left), Expansions of residential houses (right) of incremental Housing in Cayagan de Oro, Mindinao

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 2.28 Expansions of residential houses of incremental Housing in Cayagan de Oro, Mindinao

29

PRECEDENT REFLECTION

These precedents have reviewed seven key housing projects, focusing on their applications

of private and public spaces as well as the repercussions of formal and informal settlement. Although these examples developed in different times and locale with their vernacular setting there are key similarities evident throughout. In each example, the resident rejected/ deviated from the original plans drawn by the architect.

A project like PREVI’s Stirling and Elemental show great formal examples of thoughtful application and adaptability. The spatial planning and anticipation for residents to expand their home enable pathways of thinking that from what is designed is not always what

happens. Whereas the projects of Aranya, Mexicali and Cagayan de Oro demonstrate the

potential capabilities that self-build has to offer incremental building methods. Taking into consideration that not incremental projects are not all initiated with build incrementations from the start, a lot of housing that has additions stem from the solution by the need for more space. Resulting in incremental builds that meet the inhabitant’s spatial needs.

What is evident is the requirement to personalise and expand their house. This could also be for space intended for a home business or workshop which opens another avenue of

program within the project. What is also observed is with these expansions is the difficulty of modifications to the house, which must be considered when designing for incremental housing. I believe that is part will be the key to making incremental housing more resilient.

Throughout these precedents it is evident there are many levels of risks when designing this type of incrementalism, such as urban planning, site application, regulations, contested

spaces, collective values, and family change. These risks are key elements I plan to address in my design.

30

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

31

3.0 INCREMENTAL STRATEGY

32

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

33

ELEMENTAL DESIGN PHILOSOPHY

The architecture firm Elemental is renowned for their approach to building incrementally. Their half a house philosophy is a well-known typology. As the leader in this field, I have undertaken a continual study into the successes and failures their approach leads to.

Most of their ambitions went beyond their predictions where the quality of living spaces was

being affected due to natural light and ventilation affected. This was a valuable lesson where

design can have a positive impact when designed but without a precaution of governance and regulations the repercussions may have been avoided (Carrasco & O’Brien, 2018).

Elemental understands that unregulated regulations are problematic and that some level of governance is needed. They have done this by physically restricting the capacity to build additional storeys, while this is seen externally there might be regulations that stop people

building into the rear of the courtyard and in front of the houses. In summary, there are less visible modifications in places except this designated by Elemental.

34

THESIS

Figure 3.02

VILLA VERDE

Figure 3.03

MONTERREY (LAS ANACUAS)

CONCEPT

QUINTA MONROY

RESEARCH RESEARCH

Figure 3.01

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX 35

ELEMENTAL’S INCREMENTAL NEEDS TO BE FULLY UTILISED URBAN PLANNING

Notably across all Elemental projects, the surroundings were not fully considered and underutilised the planning (O’Brien et al., 2020). These spaces had a poor response to the site

conditions and orientation only allocated many units as possible while sacrificing the quality of living.

SITE RESPONSE

The site response, within these clusters of residences and internal planning, due to lack of anticipation and planning of future spaces, ultimately leading to contested states over

property and encroachments (Ballesteros, 2010). This may have been averted if regulations were enforced either through contract or through design. IDENTITY

The identity of these housing developments leaves the individualism in disregard. Elemental has replicated similar housing modules with a cookie-cutter approach, ignoring the quality of living and collective identity (Quezada & Hiche, 2018). This leaves the inhabitant to attempt

modifications where they see fit even if not within the regulations set from the initial phase. Most of these designs have not anticipated these unregulated and unforeseen outcomes.

36

THESIS

Figure 3.05

VILLA VERDE

Figure 3.06

MONTERREY

CONCEPT

QUINTA MONROY

RESEARCH RESEARCH

Figure 3.04

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX 37

INCREMENTAL ARCHITECTURE APPLIED TO THE PHILIPPINES

How can the successes and failures from the award-winning firm inform the design thinking behind an incremental housing project in a place like the Philippines?

Driving the design informed from the actions and the anticipation of the resident’s

modifications and additional builds. With further thinking of using design to demonstrate the potential of the home through compatibility and secure builds with a manual. This draws

upon the case of Villa Verde, where Elemental provided a manual of habitability manual to

residents where it provides the possibilities of modification manual they can make to their home (Zilliacus, 2016). It also provided instructions and regulations if the modifications were at risk to the structural integrity of the home and neighbouring units.

Do design in this manner the thought process and anticipation needs to be highly considered

of the building changing and variations to the process. This manual would provide a catalogue of sorts where residents can select and choose parts of the home they want to improve while regulating with modular options for convenience and ease of modifications.

38

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

39

4.0 STUDY LOCATION THE PHILIPPINES

40

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Philippines

PROJECT

BIBLIOGRAPHY

APPENDIX

Philippines Highlight Map created by Ariel Flores, August 2020, Datasource ESRI (hub.arcgis.com)

41

THE PHILIPPINES PURPOSE + CONTEXT

The Philippines is ranked the country most at risk of disasters in Asia and ranked ninth in the world

by the 2019 World Risk Index. The country is prone to tropical cyclones due to its geographical location which generally produces heavy rains and flooding of large areas and strong winds which

result in heavy casualties to human life and destruction to crops and properties (PAGASA, 2020). Events like these are the most frequent hazard that has long-lasting impact further resulting in

gradual damage to communities and infrastructure, this includes where the poor and those who live in vulnerable areas are most at risk.

Understanding that this country has many environmental risks and hazards, shifting from preventing these disasters the approach has been to look at the country as a whole and categorise these disasters as impactful and consequential.

42

THESIS

RESEARCH RESEARCH

Baguio, Benguet Region Northern Philippines

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Map atlas of the Philippines (Author provided)

43

BAGUIO CITY BENGUET, PHILIPPINES SITE CONTEXT

Baguio residing in the mountainous region and situated in higher altitudes making it unusually

cooler climates than other parts of the country. This also makes this region susceptible flooding and landslide hazards, this more common when a typhoon or tropical storm hit landfall and along with it, its hazardous effect on the environment. This disrupts the activities and order of human life, causing disaster on several scales (Nolasco-Javier & Kumar, 2018).

44

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

45

Figure 4.01 Satellite of Bagiuo City (Google Earth)

4.1 CULTURAL ANALYSIS PHILIPPINE VERNACULAR + SETTING

46

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

47

Figure 4.11 View from Kennon Road leading into Baguio City

HOUSING CONDITIONS BAGUIO HOUSING + INCREMENTAL DEVELOPMENT

Exploring the internal planning of residential houses in the typical housing vernacular of Baguio, opens an investigation of the structural function and cultural sensitivities within communities and

in the urban environment. Determining the specific uses within the household and with further analysis of future requirement both to the user and the land in which it is situated (Gonzales, 2016).

Residential housing consisting of the most common types of living in Baguio has been sourced to analyse this information.

In both city profile and suburban view, it is evident in many parts of the city that the housing in

Baguio already practice an informal incremental building (Estoque & Murayama, 2013). These

structures additionally building upon each other proves to function as required for the residents

needing more space. This stems from family growth such as multi-generational living (Acred, 2001). Therefore needing more structural space for the older and new generations.

48

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 4.12. Urban population growth leaves city planning of housing in chaos

49

4.2 SPATIAL ANALYSIS

50

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

51

Space syntax analyses from DepthMapX (Author provided)

INTERNAL SPATIAL PLANNING LIVING PATTERNS

Using spatial syntax, a software tool to perform a set of spatial network analyses to

understand social processes within the built environment. It works at a variety of scales from building, small urban, whole cities or regions. At each scale, the software can produce a

map of open space elements then connect them via some relationship such as intervisibility or overlap and then perform graph/graphic analysis of the resulting network. The objective

of the analysis is to derive variables which may have social or experiential significance (Varoudis & UCL, 2016)

The space syntax of the typical housing units, housing complexes and multi-residential apartments. Analysis through Visibility Graph and Axial Maps provides a great insight into the

areas of most use and frequent occupied areas of the home. The collection of information, allows the current values of potential families to realise what is important within their home

and if they haven’t observed it yet, this information can provide a direction of their dynamics and even suggest patterns of the family. These patterns are crucial when designing for current existing intentions of a home and help with designing towards future projections. In summary:

Spatial analysis was a valuable method in data collection and findings. Together these typical floor plans and spatial analysis forms the premise to developing an informed design.

The visibility graph and axial map depict the public and private spaces also the most visible and access paths used within the typical home. Analysing these types provides the insight into how the home operates as serves the Filipino and a family and an individual.

52

THE THREE BEDROOM APARTMENT

A typical plan in residential and multi-residential apartment complexes. Smaller in design features,

like the kitchen and bathroom indicates the status of the family. Whereas the size of the loving room is greater and seems more imposed into the importance of the intended family.

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Typical three bedroom apartment (Author provided)

PROJECT

BIBLIOGRAPHY

APPENDIX

Three bedroom apartment spatial visibility analysis (Author provided)

53

THE TWO STORY TOWNHOUSE

The common building typology in Baguio City and the mountainous region is a two story townhouse. The additional plane provides more space above allowing for increased quality of living, and a base of activities at ground floor/ lower level.

Typical two story townhouse (Author provided)

Two story townhouse spatial visibility analysis (Author provided)

54

THE LARGE FAMILY HOUSE

The large family house exhibits grandeur in bigger design features such as the maid’s quarters

and two living rooms spaced over the two levels. The larger kitchen with the bigger dining table

indicates the family acquires more importance on the shared dining table interactions. This also extracts information from the visibility graph such as distances to and from frequently travelled spaces.

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Typical large family house (Author provided)

PROJECT

BIBLIOGRAPHY

APPENDIX

Large family house spatial visibility analysis (Author provided)

55

SPATIAL ANALYSIS REFLECTION

Analysing these spatial parts of the typical homes in Baguio, allowed me to criticise the living spaces and the lack of fixtures when developing in Baguio.

When searching for houses, a majority of these homes were 2-3 bedrooms and more,

indicating that the locale is opting to provide for larger occupancy instead of the single or couple residency.

The spaces of living are very low-medium standard, where design could have been developed further. The larger the home, the more these spaces felt undeveloped, leaving most of the

internal spaces to be filled and furnished by the resident. From personal experience and

knowledge from my family living there, the homes are quite skeletal in its proposal where the resident feels in control of their house with the freedom to personalise. This indicates these

homes are to provide the necessities like structure, shelter and services but leaving the fixture appliances to the inhabitant.

56

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

57

4.3 TRACE ANALYSIS

58

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

59

Baguio homes trace analyses (Author provided)

OBSERVATIONS + TRACES THROUGH THE LENS OF THE FILIPINO HOME

Trace analysis, as a research tactic uses data that involves property real estate web sites along with secondary sources to understand specific living patterns at each site. This

research provides insight to determine the living conditions of how people live in their residential setting/ home (Mirakhorli & Cleland-Huang, 2011; Zeisel, 2006).

Deducting through trace analysis and imagery, it’s evident with essential spaces like the kitchen, living and recreation room are important elements of the home. The private spaces

like the bedroom and the bathroom are given different weightings where the bedroom is

aimed to achieve more natural light and the bathroom the minimum amount. Another element to note is the structural connection of most houses are double or even triple storey.

The staircase in the home is notable in almost all houses and a vital part of the home to increase the efficiency on the plot of land in the build. In summary:

These trace analyses as observations are preliminary and implies the important living components in the typical family home. Understanding that these components are often connected or have a stronger relationship with one another in the residential home.

60

LIVING AND KITCHEN

Depicted here, the multiple sofas, armchairs and chairs with art on the wall can suggest the space is opted for family time in the living room. The comfort implied upon the space implies more time dedicated to these areas of living.

The kitchen up against the wall and the adequate storage implies the home to be the source of food and supplies. The cleanliness or clutter suggests the frequent uses and misuse the integral space.

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Typical Baguio Home – Two Storey

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 4.31 Living room and kitchen trace analyses

61

BEDROOM AND BATHROOM

The bedroom consisting of a double and single bed, suggests a family and child can occupy this

room. Also implying the space to be a second/ guest room. The information here can speculate on the reason why multiple beds are placed here. A little detail is the small window on the wall and the pitched roof and skylight.

The bathroom indicates the quality of space. The fixtures is a dated part of the house. The window is a also extracted as minimal light and ventilation apart of the space.

Typical Baguio Home – Two Storey B (Author provided)

Figure 4.32 Bathroom and Bedroom trace analyses (Author provided)

62

VIEWS AND ACCESSIBILITY

Extracting what are the important elements to the house. The large bay windows flooding the area with light, and the comparison to the TV implies the priority of views on the living space.

The staircase location and material display the qualities and usage. The stair as a connector of these two planes of spaces establishes the home and is the more traversed element within the home.

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

Typical Baguio Home – Two Storey C (Author provided)

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 4.33 Views and accessibility trace analyses (Author provided)

63

TRACE ANALYSIS REFLECTION

A closer insight into the typical homes allowed me to understand the parings of living components. These components in internal planning provides the basis of designing the home optimal for the Filipino family.

These spaces made sense spatially and by using these three pairings can help me inform how these spaces work at an interior scale. Also, worth noting that the with these parings the

elder generation tend to be located on the ground floor, with access to bathroom, kitchen

and living. Minimising the need for vertical access, provides a family dynamic I did not fully

understand growing up but now analysing it provides clarity of why this occurs. The staircase enables access to more parts of the home and increased amount of occupation/ storage, as families grow, the number of visitors and extended family tend to reside within the home overtime.

Multigenerational living is embedded in Filipino culture and several generations living in the

same household begins to raise spatial issues. This is where I think designing for changing families will become important and vital to securing how families and individuals live in Baguio, and possibly other places in this similar situation.

64

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 4.31 Pairings of trace analyses in Baguio homes

65

4.4 SITE ANALYSIS

66

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

67

Baguio Figure Ground map (Author provided)

RISK MANAGEMENT LOCATION ENVIRONMENTS + CONDITIONS

The mountainous region is susceptible to seismic and flooding, in consequence, a landslide is a hazard that occurs gradually due to the site conditions. In reality, this

is due to the practices of the land, where the mountainous terrain are stabilised with

pine trees and local vegetation (Nolasco-Javier, Kumar, & Tengonciang, 2015). Issues of logging and settlement have caused the reduction of vegetation and consequentially the stabilisation of the sloped terrain.

Building technology and engineering practices in some areas have successfully managed land stabilisation to enable construction, however, these practices are often not

regulated, leaving individuals to modify their structure and in some cases, too extreme measures (Acred, 2001). In the event of a hazard, these structures are the ones at risk as

the structural foundations are now under tension from both land stabilisation and user

modification, leaving the structure vulnerable for periods of time can result in devasting outcomes especially in mountainous terrain.

TYPHOON

RAINFALL

LANDSLIDE

Consequential and self-induced hazards, incur from one another. (Author provided)

68

THESIS

RESEARCH RESEARCH

CONCEPT

Figure 4.41 Rain Induced Landslide Susceptibility

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

URBAN SPRAWL Urban mapping of Baguio (Author provided)

69

70

Susceptibility map overlay (Author provided)

THESIS

High

Moderate Low

Not Susceptibile Site

Building Heights 1-2 2.5

Stories

Stories

3- 3.5 Stories 4-6

Stories

10 +

Stories

7-9

Stories

Building heights are relavite to the slope of the land. Generally not exceeding 5 stories above NGL from the top of the slope. Cases like these have majority of its volume incased in the land or the side of the mountain.

CONCEPT

Located North West of the city center, placed in a high - moderate susceptible overlay.

Susceptibility

RESEARCH RESEARCH

Site Location + Susceptibility

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Road Network Major Road

Minor Road Building Site

Due to it’s mountainous Baguio has no rail or public transport infrastructure. Through the use of jeepneys (Jeep & Bus combination) it’s road networks are utilised with informal transportation being the most second preferred option to travel.

Public + Commerical buildings Private / Mixed Public / Civic Commerical Site

A diverse mixed range of private, mixed, commercial, and public through out Baguio NTS

N

71

72

Figure Ground (Author Provided)

50

Meters

N

THESIS

RESEARCH RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Figure 4.42 Satellite imagery of Bagiuo City, Benguet, Philippines (Google Earth)

50

Meters

N

73

LAND ALLOTMENT

SLO PE DD OU BL EL OA DE D

PLO T

SLO PE DD OU BL EL OA DE D

PLO T

LO W

ER

PL O T

U PP

ER

PL O T

Double loaded plot of land

Lower and Upper plot in Baguio

74

BA

DO

DA

NG

W

A

RO

AD

EXISTING SITE PLAN

THESIS

BOK

AWK

SKETCH

AN R OA

D

BADO DANGWA LOOP

CONCEPT

BADO DANGWA LOOP

RESEARCH RESEARCH

PROJECT

EDIWAU LANE

BIBLIOGRAPHY

1 STOREY RESIDENTIAL

1 STOREY COMMERICAL

1 STOREY PUBLIC

BUILT UP AREA

2 STOREY RESIDENTIAL

2 STOREY COMMERICAL

2 STOREY PUBLIC

SITE BOUNDARY

3+ STOREY

3+ STOREY COMMERICAL

3+ STOREY PUBLIC

APPENDIX

VEGETATION

JEEPNEY STOP

0

5

10

15M

75

5.0 CONCEPT DESIGN IDEATION

76

+

RESEARCH

A

THESIS

+

B

CONCEPT CONCEPT

SKETCH

+

D

E

F

G

APPENDIX

Typical Incremental Process A to B, but what about after that?

+

BIBLIOGRAPHY

C

PROJECT

we need more

modification manual

77

WHAT WOULD ELEMENTAL DO IN THIS PROJECT? Urban Planning

Elemental’s projects have opted to allocated as many units to one site, and relying on a grid to serve that function. A greater consideration must be in place to benefit the community and surrounding context.

Site Response

Typically Elemental’s projects have a singular form with views facing two directions in the front and behind just like typical row houses. When applied to a slope, this would create disrupted views and illogical spaces to for entrances and shared public spaces. Modification Regulation

Learning from Quinta Monroy and the unregulated expansions and adapting design to reduce the risk of unsecure modifications, but still providing the resident the freedom to expand.

78

THESIS

TYPICAL ORTHAGONAL GRID

RESEARCH

CONCEPT CONCEPT

SKETCH

PROJECT

SITE APPLICATION

BIBLIOGRAPHY

APPENDIX

MODIFICATION REGULATION 79

THESIS APPROACH

How is an increment al housing approach is applicable to this location in the Philippines? Urban Principles

The urban planning must address the envrionmental constraints and limitations. By utilising the land’s condition to an advantage and consider the potential risks and susceptible hazards that may occur.

Site Response + Application

The site in general must allowing for collaboration of living. The shared public/ communal spaces

have to offer a higher quality of living, introduce commercial and with design inhibit possible encroachment and contested public property. Personalisation

Increased anticipation for resident’s modifications.

Each residence must be inclusive of its inhabitant’s spatial requirements, with flexibility to change within a 5-10 year span. Further adapting spaces should also be considered either as internal planning or within the vertical expansions/ mezzanine.

80

RESEARCH

CONCEPT CONCEPT

SKETCH

PROJECT

SITE APPLICATION

THESIS

URBAN PRINCIPLES

BIBLIOGRAPHY

APPENDIX

PERSONALISATION

81

FLEXIBLE HOUSING PLANNING

Creating base design which can be developed and expanded on by the resident based off their needs need to be flexible in terms of spatial planning.

Depending on the family/ residents and what their spatial requirements the base design providing

the essentials: Bedroom Bathroom, Kitchen, Dining and Living. With the middle side walls of the module lined with services that rise throughout the structure.

82

B

B B B

Ba

K

C

B D

L

Ba B

SLEEPING

C

D

L

Ba B

B B Ba

L

K

C

L D

Ba B

SKETCH

LIVING

ESSENTIALS

Ba

CONCEPT CONCEPT

K

RESEARCH

SLEEPING

Ba

THESIS

B

LIVING

E

L D

ACCESSIBILITY

E

D

K

Ba

C

B

BIBLIOGRAPHY

B

L

PROJECT

B

ACCESSIBILITY

APPENDIX

Incremental housing Parti diagram

DESIG

83

CONCEPT DESIGN REFLECTION

Gathering concepts form research like the PREVI project, Elemental’s philiosophy and the events of Cagayan de Oro, this concept proved to reinforce some the existing design approaches however I differentiate from how the leading architectural practice that has won major awards from developing this typology. By taking their typical approaches and design methodology I realised that Elemental require a immense excavation on site for a tabula rasa

implementation. Their housing generally needs flat land for residents housing to be the same or yet similar. This instigates that their housing approaches are replicating the same design

and allocating across the site without much regard to orientation urban planning. Resulting in medium-standard living qualities and lack of optimisation.

With my thesis approach I tested if Elemental’s approach with a standard grid, in block form how their urban planning will respond to the site. Knowing from research that majority of

their projects require flat land for construction, in what way can their design be modified to a site that is sloped and where excavation would be detrimental in the building process and the existing surroundings. I explored in block form, how with some additional design

thinking, the site can be integrated into the success of the design. I also had to consider the

land stabilisation that the pine trees provide in the area. This involved building on the slope across the site and implanting three flat area inner courtyards which would serve as shared

communal spaces within the site. Overall, I was thinking and critiquing Elemental’s approach and its relevance to site location that has vulnerabilities but also increasing the quality of living in a project like this.

This brought me to focus on three typical Filipino families, each representing their social

class, family dynamics changing spatial requirements. I would need to design for permanent

and temporary components of their house with the option to design their home. This would result in differing living spaces and the ultimately changing the type of home they live in.

84

THESIS

RESEARCH

CONCEPT CONCEPT

Isometric Overview

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

External Perspective West

85

6.0 SKETCH DESIGN AN INCREMENTAL APPROACH

86

THESIS

RESEARCH

CONCEPT

SKETCH SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

87

2 STOREY WAREHOUSE COMMERCIAL

BOK

AWK

AN R OA

D

BADO DANGWA STREET

BADO DANGWA STREET

SITE CONTEXT

EDIWAU LANE

3 STOREY WAREHOUSE COMMERCIAL

INDIVIDUALISM 2 STOREY WAREHOUSE COMMERCIAL

88

VEGETATION

1 STOREY RESIDENTIAL

1 STOREY COMMERICAL

LEVELED PLANE

2 STOREY RESIDENTIAL

2 STOREY RESIDENTIAL

SHARED PUBLIC SPACE

3+ STOREY

3+ STOREY

Ground Floor Plan

0

5

10

15M

INDICATIVE RESIDENTIAL SPACES

THESIS

BOK

AWK

SKETCH SKETCH

AN R OA

D

BADO DANGWA STREET

CONCEPT

BADO DANGWA STREET

RESEARCH

PROJECT

EDIWAU LANE

RESIDENT 04

RESIDENT 07

RESIDENT 10

RESIDENT 13

RESIDENT 02

RESIDENT 05

RESIDENT 08

RESIDENT 11

RESIDENT 14

RESIDENT 03

RESIDENT 06

RESIDENT 09

RESIDENT 12

RESIDENT 15

Ground Floor Plan

5

10

15M

APPENDIX

0

BIBLIOGRAPHY

RESIDENT 01

89

HOUSING MODULE

TY P

90

ICA

LM

OD

UL

E

EXPLODED MODULED ELEMENTS | DESIGN OPTIONS

RO

OF

ING CH

PA R

F LO

SO

LID

DD

ING

G|

CLA

DD

ING

| GL

DE

ZIN

NG

T OP

FA

Y

IO

GL

G

F LO

NS

F LO

F LO

FO F LO U N D A OR TIO ING N

IN S

FO

IN OR

O

G3

AZ

ED

BA

F LU

IN G

1

300

N

150

UN

AT IO

T IO DA

N

SH

LCO

2

UL

PT

IO

NS

100

G R IN

RR

CA

O DE

CH

F LU

NY

AM

FIL

300

FER

LET

| FR

ED

ED

SH

ON

150

TA

A CH

GE

MF

ER

ED

150 FIL

LET

ED

150

BIBLIOGRAPHY

CA

AZI

NC

S

ING L A B S PA S CE S)

ES

GLA

ING

FA

NSP ARE

NC

B

PROJECT

CLA

ZIN

DD

TRA

SLA

SKETCH SKETCH

GLA

CLA

TRA

(LIV

ET

CONCEPT

EN

OR

OF

AP

RESEARCH

RO

ED

THESIS

PIT

APPENDIX 91

HOUSING TYPES TWO BLOCK UNIT

FLAT LONG

THREE BLOCK MODULE

92

SLOPED ACROSS

THREE BLOCK MODULE

THESIS

RESEARCH

CONCEPT

SKETCH SKETCH

TWO BLOCK MODULE

SLOPED ACROSS

TWO BLOCK MODULE

PROJECT

FLAT STANDARD

BIBLIOGRAPHY

APPENDIX 93

TYPICAL PLANS TWO BLOCK UNIT

1

A

1

A002

A002

BASEMENT

GROUND FLOOR

1 Basement 1 (Working) 1 : 100 94

Ground Floor (Working) 1 : 100

1 A002

A

THESIS

RESEARCH

CONCEPT

SKETCH SKETCH

PROJECT

BIBLIOGRAPHY

LEVEL ROOF

+ TYPICAL LEVEL 2 (2040)

2

Level 1 (Working)

Level 2

3

1 : 100

0

APPENDIX

TYPICAL LEVEL 1

1 : 100

2

4

6M

95

MODULE SECTION A 2020

Level Roof Level Roof 2000

2000

70137 70137 Level 2 Level 2

4000

4000

68137 68137

Level 1 Level 1

4000

4000

64137 64137

GroundGround Floor Floor

4000

4000

60137 60137

1 A002

Basement Basement 1 1 56137 56137

Section Section A (Working) A (Working) 11 : 1001 : 100 A

1 96

Ground Floor (Working) 1 : 100

1 A002

1

A002

2

Level 1 (Working) 1 : 100

3

Level 2 1 : 100

4 0

2

4

6M

Lev

1:1

MODULE SECTION A 2040

2000

2000

Level Roof Level Roof 70137 76137 70137

Level Roof Level 2 Level 2

THESIS

Level Roof Level Roof 2000 4000

2000 4000

68137 72137 68137

70137 70137 Level 1 2 Level 1 2

4000

RESEARCH

4000

64137 68137 64137 68137

Ground Ground Floor Floor Level 1 Level 1

4000

CONCEPT

4000

60137 64137 60137 64137

Basement Basement 1 Floor 1 Ground Ground Floor

4000

SKETCH SKETCH

4000

56137 60137 56137 60137

1 A002

Section Section A (Working) A (Working) 11 : 1001 : 100

Basement Basement 1 1

A

BIBLIOGRAPHY

Section Section A (Working) A (Working) 11 : 1001 : 100

PROJECT

56137 56137

1 A002

1

A002

APPENDIX

1

Ground Floor (Working) 1 : 100

2

Level 1 (Working) 1 : 100

3

Level 2 1 : 100

4 0

2

4

6M

Lev

1:1

97

SOLAR STUDIES WINTER SOLSTICE

1000

98

1200

1400

SOLAR STUDIES SUMMER SOLSTICE

THESIS

RESEARCH

CONCEPT

SKETCH SKETCH

PROJECT

BIBLIOGRAPHY

1400

1200

1000

APPENDIX

99

SKETCH DESIGN REFLECTION

Discussions from concept and thesis supervisors directed me to focus on incremental side of building and living rather than disaster related architecture. This helped greatly in securing a

more cohesive and detailed thesis that attempts to resolve issues within incremental housing. Developing from concept design, I iterated what the quality of spaces that residences can occupy inside and outside what they have been allocated.

The diagrammatic site plans indicate the existing surroundings and the proposed context, in plan it’s a difficult to depict the additional builds as the verticality of the each living residence is key to how it will work as an incremental housing project.

Knowing that this is a complex issue that occurs throughout all incremental projects. Indicating the residential spaces over the 15 inner residences, I was intending to show the privatisation of shared public spaces. By keeping in mind that residents would encroach

beyond their intended allocation I had to consider and anticipate these actions. Further more I considered the direction of site conditions like immense rainfall and indicated the direction of water travel due the slop of the terrain. Furthermore the roofing structure was designed

to support these conditions, originally developed from traditional vernacular with modern

materials built of corrugated iron, where this would need to be typically replaced after twenty years, by that time the family/ inhabitants has the chance to upgrade or built on top their home.

What was omitted in description was the resident’s ability to change the level where it meets

the inner courtyard space into a home workshop / home business to increase revenue and utilise their allocated space. This is quite a common practice in the Philippines (and in Asia)

where homeowners convert their home to provide for the local community and additional income for their home. Overall the sketch design proposal showcased the form and variety of program that can accommodate the incremental housing type across a sloped terrain.

100

THESIS

RESEARCH

CONCEPT

2020 Isometric Overview

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

2020 External Perspective West

101

7.0 FINAL DESIGN DESIGN DEVELOPMENT

102

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

103

SITE PLAN

With the design intentions to occur in stages, this done by providing sites and services to the area, and to each allotment. These services consist of core stair egress and wet areas such as kitchen, bathroom, and laundry.

Each lot has allocated services risers that run part of the middle of the structural frame.

104

THESIS

RESEARCH

VER ROY A DRI VE

CONCEPT

+ �.��

+ ��.��

+ �.��

+ 13.50

AN R OA

PROJECT

BOK

AWK

SKETCH

D

B A D O D A N G W A ST R E E T

+ �.��

BIBLIOGRAPHY

EDIWAU LANE

APPENDIX

2020 STAGE ONE 0

10

20

30M

105

VER ROY A DRI VE

+ �.��

+ �.��

AN R OA

AWK

BOK

106

+ ��.��

EDIWAU LANE

2020 STAGE TWO

+ ��.��

D

B A D O D A N G W A ST R E E T

+ �.��

THESIS

RESEARCH

VER ROY A DRI VE

CONCEPT

+ �.��

+ ��.��

+ �.��

+ ��.��

AN R OA

PROJECT

BOK

AWK

SKETCH

D

B A D O D A N G W A ST R E E T

+ �.��

BIBLIOGRAPHY

EDIWAU LANE

APPENDIX

2040+ 0

10

20

30M

107

+ ��.��

+ �.��

+ �.��

+ �.��

A

B A D O

+ ��.��

D A N G W A

S T R E E T

CROSS SECTION A

SKETCH

+ ��.��

PROJECT

BIBLIOGRAPHY

APPENDIX

109

15M

10

5

0

B O K A W K A N + ��.��

CONCEPT

+ ��.��

RESEARCH

+ ��.��

R O A D

THESIS

+ ��.�

+ ��.��

+ �.��

+ �.��

+ �.��

B

V E R R O Y A

+ ��.��

D R I V E

CROSS SECTION B

CONCEPT

L A N E

RESEARCH

+ ��.��

SKETCH

PROJECT

+ �.��

BIBLIOGRAPHY

APPENDIX

111

15M

10

5

0

+ ��.��

E D I W A U

THESIS

+ ��.��

+ �.��

CONSTRUCTION DESIGN | LIVING FLEXIBILITY

FLATTENED ROOF SLAB 3000 x 6000 x 100 (ADDITION) FLAT GRADE

CONCRETE ROOF SLAB 3000 x 6000 x 300 (PERMANENT) PITCHED GRADE

WELD MESH SHADING 6000 x 1000 x 50 (FIXED + ADJUSTABLE)

TIMBER FLOORING 3000 x 4500 x 150 (ADJUSTABLE)

TIMBER FLOORING 3000 x 6000 x 150 (ADJUSTABLE)

CONCRETE SLAB 3000 x 6000 x 300 (PERMANENT) FLOOR

NIB SUPPORTS

(PERMANENT) FIXED TO ONE SIDE

INSERTION WALL

(PERMANENT) FRAME

112

STAGE 1: STRUCTURAL FRAME + SERVICES + SLAB COORDINATION

BLOC

K MO

RESEARCH

DULE

1500 1

000 15 00 10 00

6000

APPENDIX

2000

12 000

11 700

3600 4500

900 900 900 900 900 900 900

1500

BIBLIOGRAPHY

500 10 00

PROJECT

1000 1

SKETCH

A

CONCEPT

3600

L TWO

THESIS

TYPIC A

113

CONSTRUCTION DETAIL

12mm MAX. CHAMFER

N12-200 TOP AND BOTTOM (TYP) U.N.O

500

REBATE DEPTH TO MATCH CONCRETE BEAM

300

500 MIN. REFER TO ELEVATIONS

REBATE TO MATCH CONCRETE DEPTH

3mm GAP 40mm WIDTH

A

mm REBATE

-

25mm REBATE

50mm MAX.

500 MIN. REFER TO ELEVATIONS

N16-200 TOP AND BOTTOM (TYP) U.N.O

800

N20-1500 TYP. UNO. HOT DIP GALVANISED DOWEL BARS IN 40 DIA. PRE-STRESSING TUBE FULLY GROUTED (3 No. MIN. PER PANEL). 20mm GROUT BED (CONCRETE GRADE TO BE 20 MPa. GREATER THAN PRECAST PANEL GRADE AND 40 MPa. MIN.) PROVIDE NON-FERROUS PACKERS. GROUT TO BE INSTALLED IN ACCORDANCE WITH MANUFACTURERS REQUIREMENTS AND TO THE ENGINEERS APPROVAL.

20mm COVER

N20-1500 TYP. UNO. HOT DIP GALVANISED DOWEL BAR IN 40 DIA. PRE-STRESSING TUBE FULLY GROUTED (3 No. MIN. PER PANEL). 20mm GROUT BED (CONCRETE GRADE TO BE 20 MPa. GREATER THAN PRECAST PANEL GRADE AND 40 MPa. MIN.) PROVIDE NON-FERROUS PACKERS. GROUT TO BE INSTALLED IN ACCORDANCE WITH MANUFACTURERS REQUIREMENTS AND TO THE ENGINEERS APPROVAL.

20mm MAX. COMPRESSED WIDTH SEALANT TO ARCHITECTS DETAIL. CROSS WIRE OF MAIN FABRIC AT END OF FABRIC. 48mm WIDTH

NOTE:

NOTE:

REFER TO ARCHITECTURAL DRAWINGS FOR TYPE OF PRECAST JOINT REQUIRED.

REFER TO ARCHITECTURAL DRAWINGS FOR TYPE OF PRECAST JOINT REQUIRED.

PRECAST WALL BEAM DETAIL

TYPICAL EXTERNAL PRECAST WALL STEPPED AT SLAB CONNECTION SCALE 1:20

DETAI INSITU WALL

SCALE 1:5 N1 LO RE

A

5mm GAP

-

25mm REBATE

48mm WIDTH

TYPICAL PC. PANEL PRECAST LID T

80

20 GAP

20mm MAX. COMPRESSED WIDTH SEALANT TO ARCHITECTS DETAIL. CROSS WIRE OF MAIN FABRIC AT END OF FABRIC.

EQ

20mm MAX. COMPRESSED WIDTH SEALANT TO BE REMOVED UPON COMPLETION OF LIQUID GROUTING AND VOID TO BE RAM PACKED GROUTED.

400

PROVIDE EXPANSION CAP

CONCRETE DEPTH

20mm COVER

AND TO THE ENGINEERS APPROVAL. NOTE: DO NOT CHAMFER INTERNAL EDGES

300

CHAMFER

PRECAST LID N20-1500 TYP. UNO. HOT DIP GALVANISED DOWEL BAR IN 40 DIA. PRE-STRESSING TUBE FULLY GROUTED (3 No. MIN. PER PANEL). 20mm GROUT BED (CONCRETE GRADE TO BE 20 MPa. GREATER THAN PRECAST PANEL GRADE AND 40 MPa. MIN.) PRESSURE PROVIDE INJECTED LIQUID GROUT. NON-FERROUS PACKERS. INJECT SINGLE TUBE ONLY. GROUT TO BE INSTALLED IN ACCORDANCE GROUTED GALVANISED DOWEL BAR WITH MANUFACTURERS REQUIREMENTS

REBATE DEPTH TO MATCH

-

500 MIN. 500 MIN. REFER50mm TO MAX.REFER TO ELEVATIONS ELEVATIONS 12mm MAX.

A

REBATE DEPTH TO MATCH CONCRETE BEAM

20mm COMPRESSIBLE FILLER

20-1500 TYP. UNO. HOT DIP GALVANISED DOWEL BARS 40 DIA. PRE-STRESSING TUBE FULLY GROUTED N20-1500 TYP. UNO. HOT DIP GALVANISED DOWEL BAR IN No. MIN. PER PANEL). 40 DIA. PRE-STRESSING TUBE FULLY GROUTED mm GROUT BED (CONCRETE GRADE TO BE (3 No. MIN. PER PANEL). MPa. GREATER THAN PRECAST PANEL 20mm GROUT BED (CONCRETE GRADE TO BE RADE AND 40 MPa. MIN.) PROVIDE 3mm GAP 20 MPa. GREATER THAN PRECAST PANEL PROVIDE EXPANSION CAP ON-FERROUS PACKERS. GRADE AND 40 MPa. MIN.) PROVIDE 40mm WIDTH TO GREASED DOWEL FOR ROUT TO BE INSTALLED IN ACCORDANCE NON-FERROUS PACKERS. 20mm MOVEMENT TH MANUFACTURERS REQUIREMENTS GROUT TO BE INSTALLED IN ACCORDANCE ND TO THE ENGINEERS APPROVAL. WITH MANUFACTURERS REQUIREMENTS AND TO THE ENGINEERS APPROVAL. N12-200 TOP AND BOTTOM (TYP) U.N.O

N.T.S

WATERPROOFING DETAILS AND CO-ORDINATED WITH REQUIREMENTS.

TO GREASED DOWEL FOR OTE:

20mm MOVEMENT ER TO ARCHITECTURAL AWINGS FOR TYPE OF CAST JOINT REQUIRED.

BEARING CAST WALL T WALL NNECTION L

0 TYP. UNO. HOT DIP GALVANISED DOWEL BAR IN RE-STRESSING TUBE FULLY GROUTED N. PER PANEL). OUT BED (CONCRETE GRADE TO BE GREATER THAN PRECAST PANEL N20-1500 TYP. UNO. HOT DIP GALVANISED ND 40 MPa. MIN.) DOWEL BARPROVIDE IN 40 DIA. PRE-STRESSING TUBE ROUS PACKERS. FULLY GROUTED (3 No. MIN. PER PANEL). O BE INSTALLED ACCORDANCE 20 GROUTINBED (CONCRETE GRADE TO BE 20MPa NUFACTURERS GREATERREQUIREMENTS THAN PRECAST PANEL GRADE AND HE ENGINEERS APPROVAL. 40MPa MIN.) PROVIDE NON-FERROUS PACKERS. GROUT TO BE INSTALLED IN ACCORDANCE WITH MANUFACTURERS REQUIREMENTS AND TO THE ENGINEERS APPROVAL.

114

NOTE: 25 REBATE REFER TO ARCHITECTURAL DRAWINGS FOR TYPE OF PRECAST JOINT REQUIRED.

TYPICAL NON-LOAD BEARING EXTERNAL PRECAST WALL JOINT DETAIL SCALE 1:20

EQ

DETAIL SCALE 1:5

R.C. SLAB OVER

300 COG

DETAI SCALE 1:5

EQ

A -

N12-300 STARTER BARS EACH FACE

R.C. SLAB OVER

300 COG

N12-300 STARTER BARS CENTRAL

SCABBLED FACE

STAGE 2: STRUCTURAL FRAME WITH TIMBER INFILL

L TWO

BLOC

DULE

RESEARCH

K MO

THESIS

TYPIC A

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX 115

HOUSING TYPES

116

STANDARD TWO BLOCK MODULE

LONG THREE BLOCK MODULE

SLOPED TWO BLOCK MODULE

SLOPED THREE BLOCK MODULE

HIGH TERRACED TWO BLOCK MODULE

LOW TERRACED THREE BLOCK MODULE

SYSTEM MODULARITY

L2

ADDITIONAL FAMILIES (SUBLET) - PRIVATE RESIDENCE - SLEEPING

THESIS

FAMILY 3RD GEN /

- LIVING

- STUDY

FAMILY 2ND GEN

- PRIVATE RESIDENCE - SLEEPING - LIVING

CONCEPT

L1

RESEARCH

- DINING

- DINING

SKETCH

- STUDY

FAMILY 1ST GEN /

- PRIVATE RESIDENCE - HOME WORKSHOP - SUBLET

FOUNTATION LEVEL - VEHICLE ENTRANCE - TRANSIENT - GARAGE

- AUTO SHOP

APPENDIX

B1

BIBLIOGRAPHY

INTERCHANGEABLE

PROJECT

GF

TRANSITIONAL LEVEL

- WORK SHOP

117

HOME WORKSHOP POSSIBILITIES

SARI SARI

AIRBNB

CAFE / RESTAURANT

SALON / BARBER SHOP

GARAGE / AUTO SHOP

CRECHE DAY CARE

H OME WORKS H OP

118

PRIVATE RESIDENTIAL OPTIONS

THESIS

LIVING

RECREATION/ STUDIO

KITCHEN

DINING

CONCEPT

STUDY

RESEARCH

SLEEPING

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

RES IDEN CE

119

SARI SARI H OME WORKS H OP

120

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

CAFE / RESTAURANT

BIBLIOGRAPHY

H OME WORKS H OP

APPENDIX

121

AIRBNB

H OME WORKS H OP

122

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

CRECHE DAY CARE

BIBLIOGRAPHY

H OME WORKS H OP

APPENDIX

123

SALON / BARBERSHOP H OME WORKS H OP

124

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

GARAGE AUTOSHOP

BIBLIOGRAPHY

H OME WORKS H OP

APPENDIX

125

RECREATION STUDIO H OME WORKS H OP

126

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

SLEEPING QUARTERS

BIBLIOGRAPHY

RES IDEN CE

APPENDIX

127

KITCHEN + LIVING RES IDEN CE

128

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

KITCHEN + LIVING

BIBLIOGRAPHY

RES IDEN CE

APPENDIX

129

SLEEPING QUARTERS RES IDEN CE

130

1750

3650

3900

1750 1300

1300

1300

1500

4600

1200

4600

1200

3000

3000

3150

1500

1500

4500

1200

1200

1200

1350

1200

1350

2350

1800

1900

1800

1900

1790

2350

1900

12000

1790

1200

1200

1350

1200

1350

1200

3550

1200 6550

1500

18000 2100

2100

1200 1000

3550

6550

1500

18000

5460

1500

5460

2050

1200

2050

1200

1500

1500

3000

1200 1000

3000

1200 1000

7 7

A001 A001

3650

3900

APPENDIX

2

1750

6000

4

3650

3900

6M

BIBLIOGRAPHY

0

PROJECT

3900

SKETCH

3650

CONCEPT

4500

6

A001

RESEARCH

1750 6

A001

THESIS

3150

TYPICAL RESIDENCE PLANS

TWO + THREE BLOCK MODULE

6000

Ground FloorGround (Working) Floor (Working) 1 1 : 100 1 : 100

VARIES

131

THE NEED TO CHANGE:

The design development tor accommodate such change needed to be ensure the safety and serve

a secondary purpose. Knowing that that incremental builds are done not always done at one time. Which developed into creating these extrusions from the external facades of the building.

132

ADDITIONS + MODIFICATIONS

COMPATIBLE AND SECURE WITH THE STRUCTURAL FRAME

STAIRCASE

ROOFING

BALCONY

THESIS

RESEARCH

CONCEPT

SKETCH

PERGOLA

FENCE

PROJECT

PLANTER

BIBLIOGRAPHY

APPENDIX 133

DESIGNING FOR CHANGING FAMILIES

Designing for three families, provides a diversity of needs and requirements when occupying a

space. Initially contact was established but diminished over the course of four weeks. While the data collected informed a basic premise for the intentions of home for each family.

By establishing indicative social class, this was intended to gather the living requirements and

aspirations from each family. Further to understand the family dynamics of the home and provide an intervention where the manipulations of the standardised building system can be tailored. To translate into simple terms and understanding for the survey participant and family, the terms

flexible infill system is explained as a an adaptable space that can be changed over time, with the

space being able to change form/ function as the user’s needs change (Carrasco & O’Brien, 2019; Schmidt & Austin, 2016). In summary:

The selected components provides a basis for which families can choose select upon which

reflected their values and priorities. This then informs the design and a potential direction in which the module can respond to.

134

SANTOS FAMILY

P

BAUTISTA FAMILY

PP

DELA CRUZ FAMILY

PPP

THESIS

2020

RESEARCH

2030

CONCEPT

2040+

SKETCH

PROJECT

EACH FAMILY SELECTS A SET OF COMPONENTS FOR THEIR UNIT

BIBLIOGRAPHY

APPENDIX

Figure 6.01 Component Selections , indication of family values, elements of importance in the home (Schmidt & Austin, 2016).

135

BAUTISTA FAMILY

PP

2020

2030

2040

BAUTISTA FAMILY

Roland and Maria, lives with their 3 children and elderly parents. They prefer that the grandparents

to have their own independence with kitchenette and living area, whilst Roland and Maria live harmoniously in their 3 bedroom home. ASPIRATIONS:

Wanting to stay in the home they are in, they know that their children will need their own individual space, if not even more. They want an adaptive space that grows with their living arrangements.

EXISTING COMPONENTS

136

ASPIRATIONS

THESIS

E LE

IN

D

R GA

AG

E

NG

G

PROJECT

LIV

PI

TE

SKETCH

S

A

LL

A OC

ED

CONCEPT

UN

AL

AT

RESEARCH

UN

C LO

BIBLIOGRAPHY

APPENDIX

2020

BAUTISTA FAMILY

137

BAUTISTA FAMILY

PP

2020

2030

2040

BAUTISTA FAMILY

Roland and Maria, lives with their 3 teenage children and elderly mother. After the passing of the

grandfather, they decided that the grandmother to live within the home within her own room to still feel connected and have more time with her grandchildren, whilst Roland and Maria have changed their original 3 bedroom home. ASPIRATIONS:

Thinking of opening a small shop-front service store that can-service the community and utilise the mother’s and children’s skills.

EXISTING COMPONENTS

138

ASPIRATIONS

THESIS

AT

IO

N

A IS

RI

PROJECT

R SA

SKETCH

: IVI EN + L G G D 2N EPIN E L S G IN N: +LIV E TG G 1S EPIN E SL

E/ AG P R GA SHO TO AU

CONCEPT

NG

RESEARCH

RE

E CR

BIBLIOGRAPHY

APPENDIX

2030

BAUTISTA FAMILY

139

BAUTISTA FAMILY

PP

2020

2030

2040

BAUTISTA FAMILY

Roland and Maria, now living with their adult children. The grandmother has passed and after some

time, the children would like to live in the family home as Roland and Maria are now getting older

and need care. With vertical expansion of a third storey, the adult children can accommodate their generation of family. ASPIRATIONS:

The expansion allowed the adult children to continue living in the family home. This also allows the family business to further grow and service the community.

EXISTING COMPONENTS

140

ASPIRATIONS

THESIS

E NC DA DIO U ST

CONCEPT

SKETCH

E

PROJECT

R FE O CA OKST BO

RESEARCH

G+ N I N AT I O V I L RE C G RE IN N: + LIV E DG G 2N EPIN E SL G IN N: +LIV E TG G 1S EPIN E SL

BIBLIOGRAPHY

APPENDIX

2040

BAUTISTA FAMILY

141

SANTOS FAMILY

P

2020

2030

2040 SANTOS FAMILY Julian and Rica, along with their 4 children recently moved to the Baguio for work opportunity. However, working in the city requires more time away from home. They find that Rica’s sister can move in and help with the home and familial needs. Aspirations: As a large family, they require a flexible space that will change depending on the children and parents fluctuating arrangements.

EXISTING COMPONENTS

142

ASPIRATIONS

FE

CONCEPT

SKETCH

RY

PROJECT

KE

CA

RESEARCH

BA

THESIS

G IN N: + LIV E DG G 3R EPIN E G SL IN N: + LIV E DG G 2N EPIN E SL G : VIN EN +LI G G T 1S EPIN E L S ET BL SU BNB AIR

BIBLIOGRAPHY

APPENDIX

2030

SANTOS FAMILY

143

DELA CRUZ FAMILY

PPP

2020

2030

2040

DELA CRUZ FAMILY Lorraine and Lorenzo, live with their young daughter. They moved to the Baguio a couple years ago for both work and school for their daughter. They also find that the incoming years that they might have another child requiring more space and possibly more familial help. Aspirations: They would like to have a home they can partition and generate additional income, and when needed reclaim the space when the family does expand.

EXISTING COMPONENTS

144

ASPIRATIONS

HO

P

SKETCH

PROJECT

E DG E 3 R V AT I PR N: GE T E 1 S V AT I PR L/ O OR E H SC CA Y DA

WO

S RK

CONCEPT

N:

N

RESEARCH

TIO

THESIS

R

EC

A RE

: ET BL TE U S VA I PR N: GE E D T 2N IVA PR

BIBLIOGRAPHY

APPENDIX

2040

DELA CRUZ FAMILY 145

2020 (Stage 1)

Stage 1, 21 module housing is erected on site in composition of the structural frame in situ concrete. There are six 3 block modules with each type suited for its slope. There are fifteen

2 block modules with these common types being across and the terraced. Each module

contains the core and egress which can be access by each level. This in comparison to an external staircase is the question of weathering and deterioration of the external staircase. Having a private element exposed into a communal or even shard public areas causes contested space and encroachment on neighbouring residents and eventual social disrupt.

146

THESIS

RESEARCH

CONCEPT

opted residents may not feel the need to upgrade right away. The decision to make all frames at the beginning stems from other incremental projects and its equality to provide quality and

with compatible additions and modifications to their home. The need for DIY can be tempting without regulation, this manual helps guide theses residents to a safer house.

BIBLIOGRAPHY

secure housing. With design options that come as a modification manual, provides residents

PROJECT

All frames are infilled with treated timber plywood with certainty for 5 -10 years, this has been

SKETCH

2020 (Stage 2)

APPENDIX 147

2030

This is the time when families start to grow out of their home and require more space, as of

maturity and other familial matters, the modifications to their home can seen the need for more space, decoration of desires and agenda driven.

148

THESIS

RESEARCH

CONCEPT

made or refurbished. Having a concrete frame with interchangeable facades enables these

modifications more easily compared other incremental projects. The course overtime can and skill learnt when upgrading their home.

BIBLIOGRAPHY

develop a growing community that interacts and helps each other based on their experience

PROJECT

Over twenty years is when the home becomes ‘old’ this is where the desire to upgrade can be

SKETCH

2040+

APPENDIX 149

EXTERNAL PERSPECTIVES

2020 | INNER COURTYARD

2040+ | INNER COURTYARD

150

THESIS

RESEARCH

CONCEPT

SKETCH

2020 | LOWER STREET ENTRANCE

PROJECT

BIBLIOGRAPHY

APPENDIX

2040+ LOWER STREET ENTRANCE

151

7.2 FURTHER APPLICATIONS APPLICABILITY + FLEXIBILITY

152

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

Axonometric of potential building system (top) Structural toolkit: a set of components (bottom) (Author provided)

153

ADDITIONAL APPLICATIONS

Further developing this system across the other location in need of a formalised incremental structure with an interchangeable kit of parts would require testing in each location. Cultural, socioeconomic and appropriation of these are the hurdles that can make this type of

incremental successful. While it may not be useful in well developed countries and urban cities, there is potential to modify this design more suited to developing and recovering locations.

154

XX.XX.XX STUDIO

THESIS

RESEARCH

SLOPED BLOCK

URBAN CITY BLOCK

LONG + NARROW BLOCKS

CONCEPT

BE APPLICABLE TO OTHER LOCATIONS IN NEED?

XX.XX.XX

STUDIO

Natural

TROPICAL

TEMPERATE

POLAR

SKETCH

39 | 38

ARID N/A

PROJECT

BIBLIOGRAPHY

LIVING DENSITY

Rural

Suburban

APPENDIX

N/A

Urban

36 | 38

155

APPLICABLE UNKNOWN NOT APPLICABLE

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

157 Map created by Ariel Flores, August 2020, Datasource ESRI (hub.arcgis.com

CONCLUSION

The project’s specificity is reflective on the families, locale, and informed anticipation. These key elements fundamentally determine how this site will develop over the decades of time. Provides a depth to be explored further. While it is impossible to predict what may happen

or how the residents develop their life and home, there are method of design to help shape these predictions. Systemically, working in criticism to Elemental’s thinking shifted the

projects intentions by thinking laterally and expanding upon what families require and desire. Throughout these iterations of testing and informed anticipation, its flexibility is designed

into the home as a system is develops a smarter incremental that can respond to unforeseen

change. The final 2040+ design is a development that will continue to change in form and volume.

Given the significant amount of options of module modifications, its rigidity and porous

form with interchangeable parts provides housing to become more flexible as time persists. This thesis forms a critical approach to existing incremental practices, one that prioritises informing processes and anticipate longevity. At a local scale, the project offers the potential

to either blend into its surroundings or to start influencing the new and existing buildings. This blend, enables incremental building to create deeper connections to it context and the people that live there, this is definitely one way in creating a resilient incrementalism.

158

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY

APPENDIX

159

8.0 BIBLIOGRAPHY REFERENCES + FIGURES

160

THESIS

RESEARCH

CONCEPT

SKETCH

PROJECT

BIBLIOGRAPHY BIBLIOGRAPHY

APPENDIX

161

References

Acred, M. L. (2001). Architecture Baguio City has grown rapidly leaving city planning in chaos. Retrieved from https://www.asisbiz.com/ Philippines/Baguio/pages/Architecture-Baguio-City-has-grown-rapidly-leaving-city-planning-in-chaos-Aug-2011-05.html

Alexander, C. (1968). THE ENVIRONMENTAL PATTERN LANGUAGE. Ekistics, 25(150), 336-337. Retrieved from http://www.jstor.org/ stable/43619171

Alexander, C. (1979). The timeless way of building.

Alexander, C., Alexander, P. D. A. C., Corner, J., Davis, H., Martinez, J., Corner, D., & Structure, C. f. E. (1985). The Production of Houses: Oxford University Press.

Alexander, C., Alexander, P. D. A. C., Ishikawa, S., Silverstein, M., Jacobson, M., Structure, C. f. E., . . . Shlomo, A. (1977). A Pattern Language: Towns, Buildings, Construction: OUP USA.

Aravena, A. (2014). Incremental Design, TED Talk. Retrieved from https://www.ted.com/talks/alejandro_aravena_my_architectural_ philosophy_bring_the_community_into_the_process

Ballesteros, M. (2010). Elemental—Lessons in Pragmatism. Perspecta, 42, 83-84. Retrieved from http://www.jstor.org/stable/41679224 Barker, T., & Langra, T. (2009). Housing the poor: a study of Aranya, India.

Brydon‐Miller, M., & Maguire, P. (2009). Participatory action research: Contributions to the development of practitioner inquiry in education. Educational Action Research, 17, 79-93. doi:10.1080/09650790802667469

Cabannes, Y., Douglass, M., & Padawangi, R. (2018). Cities by and for the People. In Y. Cabannes, M. Douglass, & R. Padawangi (Eds.), Cities in Asia by and for the People (pp. 13-40): Amsterdam University Press.

Carrasco, S., & O’Brien, D. (2019). Urbanism of Emergency: Use and Adaptation of Public Open Spaces in Disaster-Induced Resettlement Sites. In (pp. 163-174).

Carrasco, S., & O’Brien, D. (2018). Filling the Gaps: Modifying Modular Housing in Chile.

Charlesworth, E. (2014). Humanitarian architecture: 15 stories of architects working after disaster: Routledge.

de Chile, T., & Verona, I. (2006). ELEMENTAL Program: Rethinking Low-Cost Housing in Chile. PRAXIS: Journal of Writing + Building(8), 52-57. Retrieved from http://www.jstor.org/stable/24328975

Dovey, K. (2012). Informal urbanism and complex adaptive assemblage. International Development Planning Review, 34, 349-368. doi:10.3828/idpr.2012.23

Dovey, K. (2015). Sustainable informal settlements? Procedia-Social and Behavioral Sciences, 179, 5-13.

Elemental. (2016). Alejandro Aravena wins the Pritzker Architecture Prize 2016. Retrieved from https://archeyes.com/alejandro-aravenawins-2016-pritzker-prize/

Estoque, R. C., & Murayama, Y. (2012). Examining the potential impact of land use/cover changes on the ecosystem services of Baguio city, the Philippines: A scenario-based analysis. Applied Geography, 35(1), 316-326. doi:https://doi.org/10.1016/j.apgeog.2012.08.006

Estoque, R. C., & Murayama, Y. (2013). City Profile: Baguio. Cities, 30, 240-251. doi:https://doi.org/10.1016/j.cities.2011.05.002

Estoque, R. C., & Murayama, Y. (2014). Measuring Sustainability Based Upon Various Perspectives: A Case Study of a Hill Station in Southeast Asia. Ambio, 43(7), 943-956. Retrieved from www.jstor.org/stable/24709103

Fabrizi, M. (2019). Clusters and Growth: PREVI Housing Project by James Stirling (1976). Retrieved from http://socks-studio. com/2019/01/20/clusters-and-growth-previ-housing-project-by-james-stirling-1976/

Fromm, D., & Bosselmann, P. (194). Seven Years Later [Mexicali Revisited]. Places(1 (4)). Retrieved from https://escholarship.org/uc/ item/05f0d27s

Goethert, R. (2012). Incremental Housing – The new site & services. Retrieved from https://unhabitat.org/incremental-housing-the-new-

162

site-services-reinhard-goethert-massachusetts-institute-of-technology

Gonzales, L. (2016). Urban sprawl: Extent and environmental impact in Baguio City, Philippines. Spatium, 1, 7-14. doi:10.2298/ SPAT1636007G

Groat, L. N., & Wang, D. (2013). Architectural Research Methods: Wiley.

Hamdi, N., & Turner, J. F. C. (1991). Housing Without Houses: Participation, Flexibility, Enablement: Van Nostrand Reinhold. Kaza, K. (2010). The otla: A ‘free space’in Balkrishna Doshi’s Aranya settlement.

Lizarralde, G., & Davidson, C. (2006). Learning from the poor. Paper presented at the i-Rec conference proceedings 2006: Post-disaster

O’Brien, D. (2020). Chapter 2 - Houses in Mexicali.

O’Brien, D., Carrasco, S., & Dovey, K. (2020). Incremental housing: harnessing informality at Villa Verde. - ahead-of-print(- ahead-of-

Payne, G., Durand-Lasserve, A., & Rakodi, C. (2009). The limits of land titling and home ownership. A. and Rakodi, C, 443-462.

https://arquitechne.com/quinta-monroy-12-anos-depois-uma-analise-da-habitacao-social-de-alejandro-aravena/

Raisbeck, P. (2019). Architecture as a Global System: An Introduction. In Architecture as a Global System: Scavengers, Tribes, Warlords and Megafirms (pp. 1-22): Emerald Publishing Limited.

https://images.adsttc.com/media/images/5e74/20ab/b357/65c4/5c00/0248/newsletter/Las_Anacuas-Elemental-OCT19-2. jpg?1584668816

Rapoport, A. (1982). The Meaning of the Built Environment: A Nonverbal Communication Approach: SAGE Publications.

Roy, A. (2005). Urban informality: toward an epistemology of planning. Journal of the american planning association, 71(2), 147-158. Sanoff, H. (2000). Community Participation Methods in Design and Planning (Vol. 50).

Schmidt, R., & Austin, S. (2016). Adaptable Architecture: Theory and practice: Taylor & Francis.

Planning Review, 13(3), 309. Retrieved from https://search.proquest.com/docview/1308643106?accountid=12372

https://unimelb.hosted.exlibrisgroup.com/sfxlcl41/?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/

APPENDIX

Skinner, R. (1991). Hamdi, Nabeel, “Housing Without Houses: Participation, Flexibility, Enablement” (Book Review). Third World

BIBLIOGRAPHY BIBLIOGRAPHY

Rodriguez, L. (2012). THE IMPACT OF PREVI ON LIMA. Retrieved from https://www.architecturalpapers.ch/index.php?ID=92

PROJECT

Ramirez, R. (2010). Monterrey / ELEMENTAL. Retrieved from https://www.archdaily.mx/mx/page/96?attachment_id=266316

SKETCH

Quezada, M., & Hiche, P. M. (2018). Quinta Monroy 12 years later: an analysis of social housing by Alejandro Aravena. Retrieved from

CONCEPT

print).

Ostrom, E. (2015). Governing the Commons: Cambridge University Press.

RESEARCH

reconstruction: Meeting the stakeholders’ interest.

Mirakhorli, M. (2011). Tracing architecturally significant requirements: a decision-centric approach.

THESIS

Hamdi, N., & Turner, J. F. C. (1991). Housing Without Houses: Participation, Flexibility, Enablement: Van Nostrand Reinhold.

163

List of Figures Figure 1.0 Satellite of Baguio City

Doshi, B. (1988). Sketch of Aranya Social Housing: Staircases, Terraces, as

com/earth. google.com/earth

drawings-reveal-the-identity-of-his-work/5aa1b761f197cc24cd0001eb-bv-

GoogleEarth. (2020). Satellite image of Baguio City. Retrieved from google.

Figure 2.11 Design decisions through incremental building processes.

doshis-drawings-reveal-the-identity-of-his-work-image

Fabrizi, M. (2019). Clusters and Growth: PREVI Housing Project by James

Figure 2.23 Photograph of Aranya Settlement Social Housing

and-growth-previ-housing-project-by-james-stirling-1976/

settlement.

Stirling (1976). Retrieved from http://socks-studio.com/2019/01/20/clusters-

Kaza, K. (2010). The otla: A ‘free space’in Balkrishna Doshi’s Aranya

Figure 2.12 Orthographic drawing of residential iteration from James Stirling

Figure 2.24 The layout of Mexicali at completion

Stirling (1976). Retrieved from http://socks-studio.com/2019/01/20/clusters-

Places(1 (4)). Retrieved from https://escholarship.org/uc/item/05f0d27s

Fabrizi, M. (2019). Clusters and Growth: PREVI Housing Project by James and-growth-previ-housing-project-by-james-stirling-1976/ Figure 2.13 PREVI’ - Stirling’s scheme 1978 and 2003

Aalam, I. (2012). PREVI, Experimental Housing Project, Lima, Peru. Retrieved from https://iqbalaalam.wordpress.com/2012/12/12/previ-experimental-

Fromm, D., & Bosselmann, P. (194). Seven Years Later [Mexicali Revisited].

Figure 2.25 Mexicali’s layout seven years later

Fromm, D., & Bosselmann, P. (194). Seven Years Later [Mexicali Revisited]. Places(1 (4)). Retrieved from https://escholarship.org/uc/item/05f0d27s

housing-project-lima-peru-part-i/

Figure 2.26 Entries from the street replaced those from communal space

Figure 2.14 Quinta Monroy built before occupation (left) and residential

Places(1 (4)). Retrieved from https://escholarship.org/uc/item/05f0d27s

occupation (right)

Fromm, D., & Bosselmann, P. (194). Seven Years Later [Mexicali Revisited].

Martínez, C., & Elemental. (2013). ELEMENTAL - ALEJANDRO ARAVENA VILLA

Figure 2.27 Original structures of disaster relief(left), Expansions of

elemental-alejandro-aravena-villa-verde-project

Mindinao

VERDE PROJECT. Retrieved from https://divisare.com/projects/265944-

Figure 2.15 Villa Verde built before occupation (left) and residential occupation (right)

Martínez, C., & Elemental. (2013). ELEMENTAL - ALEJANDRO ARAVENA VILLA VERDE PROJECT. Retrieved from https://divisare.com/projects/265944-

residential houses (right) of incremental Housing in Cayagan de Oro, Carrasco, S., Dangol, N., & Recio, R. B. (2014). Rebuilding from disaster:

it doesn’t end when housing aid projects finish. Retrieved from https:// theconversation.com/rebuilding-from-disaster-it-doesnt-end-whenhousing-aid-projects-finish-134030

elemental-alejandro-aravena-villa-verde-project

Figure 2.28 Expansions of residential houses of incremental Housing in

Figure 2.16 Monterrey built before occupation (left) and residential

Carrasco, S., Dangol, N., & Recio, R. B. (2014). Rebuilding from disaster:

occupation (right)

Ramirez, R. (2010). Monterrey Housing, LAS ANACUAS / ELEMENTAL.

Retrieved from https://divisare.com/projects/266016-elemental-alejandroaravena-las-anacuas-housing

Figure 2.21 Form Variations of Aranya Social Housing: Staircases, Terraces, as Living Spaces

Barker, T., & Langra, T. (2009). Housing the poor: a study of Aranya, India. Figure 2.22 Housing development overtime 164

Living Spaces. Retrieved from https://www.archdaily.com/890414/bv-doshis-

Cayagan de Oro, Mindinao

it doesn’t end when housing aid projects finish. Retrieved from https:// theconversation.com/rebuilding-from-disaster-it-doesnt-end-whenhousing-aid-projects-finish-134030 Figure 3.01 Quinta Monroy

Quezada, M., & Hiche, P. M. (2018). Quinta Monroy 12 years later: an analysis

of social housing by Alejandro Aravena. Retrieved from https://arquitechne. com/quinta-monroy-12-anos-depois-uma-analise-da-habitacao-social-dealejandro-aravena/

Figure 3.02 Villa Verde

planning-in-chaos-Aug-2011-05.html

VERDE PROJECT. Retrieved from https://divisare.com/projects/265944-

Figure 4.31 Living room and kitchen trace analyses. Lamundi. (2020). House

MartĂ­nez, C., & Elemental. (2013). ELEMENTAL - ALEJANDRO ARAVENA VILLA elemental-alejandro-aravena-villa-verde-project

com.ph/benguet/baguio/house/rent/

Ramirez, R. (2010). Monterrey / ELEMENTAL. Retrieved from https://www.

Figure 4.31 Pairings of trace analyses in Baguio homes

https://images.adsttc.com/media/images/5e74/20ab/

https://www.lamudi.com.ph/benguet/baguio/house/rent/

archdaily.mx/mx/page/96?attachment_id=266316

jpg?1584668816

Figure 4.41 Rain Induced Landslide Susceptibility

Figure 3.04 Quinta Monroy Aerial

doi:https://doi.org/10.1016/j.cities.2011.05.002

Quezada, M., & Hiche, P. M. (2018). Quinta Monroy 12 years later: an analysis

Estoque, R. C., & Murayama, Y. (2013). City Profile: Baguio. Cities, 30, 240-251.

Figure 4.42 Satellite imagery of Bagiuo City, Benguet, Philippines (Google

alejandro-aravena/

GoogleEarth. (2020). Satellite image of Baguio City. Retrieved from google.

com/quinta-monroy-12-anos-depois-uma-analise-da-habitacao-social-de-

Suyin Chia, C. M. (2010). Villa Verde Housing / ELEMENTAL. Retrieved from https://www.archdaily.com/447381/villa-verde-housing-elemental

Ramirez, R. (2010). Monterrey / ELEMENTAL. Retrieved from https://www. archdaily.mx/mx/page/96?attachment_id=266316

https://images.adsttc.com/media/images/5e74/20ab/ jpg?1584668816

Figure 4.01 Satellite of Bagiuo City (Google Earth)

GoogleEarth. (2020). Satellite image of Baguio City. Retrieved from google.

Figure 4.11 View from Kennon Road leading into Baguio City

Carrillo, N. (2010). Baguio Houses. Retrieved from https://en.wikipedia.org/

Schmidt, R., & Austin, S. (2016). Adaptable Architecture: Theory and practice: Taylor & Francis.

APPENDIX

com/earth. google.com/earth

importance in the home (Schmidt & Austin, 2016).

BIBLIOGRAPHY BIBLIOGRAPHY

b357/65c4/5c00/0248/newsletter/Las_Anacuas-Elemental-OCT19-2.

Figure 6.01 Component Selections, indication of family values, elements of

PROJECT

Figure 3.06 Monterrey (Las Anacuas) Aerial

com/earth. google.com/earth

SKETCH

Figure 3.05 Villa Verde Aerial

Earth)

CONCEPT

of social housing by Alejandro Aravena. Retrieved from https://arquitechne.

RESEARCH

b357/65c4/5c00/0248/newsletter/Las_Anacuas-Elemental-OCT19-2.

Lamundi. (2020). House and lot For Sale in Baguio, Benguet. Retrieved from

THESIS

Figure 3.03 Monterrey (Las Anacuas)

and lot For Sale in Baguio, Benguet. Retrieved from https://www.lamudi.

wiki/Baguio#/media/File:Baguio_houses.JPG

Figure 4.12. Urban population growth leaves city planning of housing in chaos

Acred, M. L. (2001). Architecture Baguio City has grown rapidly leaving city planning in chaos. Retrieved from https://www.asisbiz.com/Philippines/ Baguio/pages/Architecture-Baguio-City-has-grown-rapidly-leaving-city-

165