001- University Portfolio 2008-11

UNIVERSITY PROJECTS

FOLIO VOL. 01

PORTFOLIO VOL.03

EHSANOMID

//2008-11

Ehsan Ghaffarian Omid Richmond Hill, Ontario

• • • • •

(647) 461 6049

Professional Summary

Ehsan.omid@Gmail.com

Experienced design architect and interior design expert, adept at merging creative visions with technical prowess Demonstrated Architectural Software proficiency through tailored sales presentations and continuous industry learning. Proven record in translating design concepts into architectural and interior reality. Accomplished in space planning, material selection, and regulatory compliance. Notably, he led the design and development of master plans for universities including Guangzhou University of Technology (old and new campuses), Guangdong Baiyun University (BaiyunU), and Guangzhou University Songtian College. References can attest to commitment and excellence.

Feb 2023- Aug 2023 Technical Trainer SolidCAD, Ontario, Canada •

Product Expertise

•

Sales Presentations

•

Client Consultation

Developed a deep understanding of the Solid CAD software and its features. Stay updated on software updates, new releases, and advancements in the field. Conducted product demonstrations for potential clients to showcase the software’s capabilities and benefits. Tailored presentations to address specific client needs and industries. Engaged with clients to understand their design and engineering requirements. Provided informed recommendations on how the Solid CAD software can address their specific needs.

Jan 2015 – Jan 2023 Design Architect (Technologist) Simplex Architects & Associates SDN BHD, Kuala Lumpur, Malaysia •

Conceptualization and Ideation

•

Space Planning

•

Design Development

•

Design Documentation

•

Coordination and Collaboration

Generated innovative design concepts and ideas for projects. Collaborated with clients and project stakeholders to understand their vision and requirements. Translated design goals into tangible architectural concepts. Developed functional and efficient space plans that aligned with the project’s purpose and requirements. Considered factors such as flow, circulation, zoning, and user experience within the space. Created detailed architectural drawings, and models to illustrate design concepts. Incorporated structural, mechanical, and electrical systems into the design. Refined and evolved the design based on feedback from stakeholders and regulatory considerations. Prepared detailed and accurate design documentation, including drawings, specifications, and design guidelines for construction teams. Collaborated with other architects, designers, engineers, and consultants to ensure a cohesive and integrated design solution. Coordinated with structural, mechanical, and electrical teams to ensure compatibility with the overall design. I

•

Regulatory Compliance

Ensured that designs comply with local building codes, zoning regulations, and other legal requirements. Obtained the necessary permits and approvals for the proposed design.

Jan 2011 – Dec 2014 Interior Architect VSMS Design, Kuala Lumpur, Malaysia •

Conceptualization and Visualization

•

Space Planning and Design

•

Material and Finishes Selection

•

Client Presentations

•

Technical Drawings and Documentation

•

Detailing and Customization

•

Site Visits and Supervision

Generated creative design concepts and mood boards aligned with project goals. Used visualization tools to illustrate design ideas to clients and stakeholders. Developed functional and aesthetically pleasing interior designs for various spaces. Created detailed space plans and layout designs that optimize space utilization. Selected suitable materials, finishes, colors, and textures for aesthetic enhancement. Considered durability, sustainability, and overall design cohesion. Selected appropriate furniture, fixtures, lighting, and accessories that complement the design. Created compelling presentations that communicated design concepts to clients. Prepared accurate technical drawings and construction documents for contractors. Ensured compliance with building codes, accessibility standards, and safety regulations. Developed custom design solutions for unique spatial requirements. Monitored design implementation during site visits and addressed construction issues.

Education Master of Project Management

Limkokwing University of Creative Technology, Cyberjaya, Malaysia, Nov 2012 – Dec 2015

BASc in Architectural Science

Curtin University of Technology, Cyberjaya, Malaysia, Feb 2008 – Aug 2011

Certificates

Accredited Autodesk Professional (Revit Architecture) Accredited Autodesk Professional (AutoCAD) Accredited Autodesk Advanced Professional (3D Studio MAX)

Computer Skills •

Autodesk

•

Visualization

•

Adobe

Revit Architecture, AutoCAD, FormIt, Forma, 3D Studio Max, Vray, Corona, Lumion, Twinmotion Photoshop, Illustrator, InDesign, Lightroom, After Effects, XD II

Contents.

P R O J E C T: D E S I G N 3 0 2

V

• UNIT OUTLINE

P. 0 1

• S I T E L O C AT I O N

P. 0 2

• CONCEPT

P. 0 3

• SUN STUDY

P. 0 4

• MASTER PLAN ZONING

P. 0 5

• MASTER PLAN

P. 0 6

• A S S E M B LY

P. 0 7

• GROUND FLOOR PLAN

P. 0 8

• TYPICAL FLOOR PLAN

P. 0 9

• UNIT FLOOR PLAN – FURNITURE

P. 1 0

• UNIT FLOOR PLAN

P. 1 1

• E L E VAT I O N S

P. 1 2

• SECTION

P. 1 3

• D E TA I L S

P. 1 4

• SCHEDULES

P. 1 5

P R O J E C T: D E S I G N 3 0 1 • UNIT OUTLINE

P. 2 7

• S I T E L O C AT I O N

P. 2 9

• CONCEPT

P. 3 0

• BUBBLE DIAGRAM

P. 3 1

• A C O U S T I C C O N S I D E R AT I O N S

P. 3 2

• SITE PLAN

P. 3 3

• GROUND FLOOR PLAN

P. 3 4

• FIRST FLOOR PLAN

P. 3 5

• SECOND FLOOR PLAN

P. 3 6

• E L E VAT I O N S

P. 3 9

• SECTION

P. 4 1

VI

EHSANOMID | PORTFOLIO

UNIT OUTLINE Design302 Sustainable, Affordable housing 23°24’3 0.2 ” N 11 3°2 8’ 19. 3” E

Introduction. Housing in Kuala Lumpur is currently in a period of rapid change, even crisis, due to increasing environmental consciousness, demographic movements, affordability pressures, and new technologies in the building industry, in the workplace and in the house itself. This state of flux has re-invigorated debates about and around general housing. How will the house of the twenty-first century accommodate new household types? How can new materials and methods of construction be best employed in house building? How can housing assist in helping the country respond to environmental change? How do we design and build better suburban housing? How can density of dwelling be appropriately increased within established areas? What strategies can be developed to make infill housing more palatable? How can design improve housing affordability as Australian cities continue to become the world’s most unaffordable? And, importantly, how can the architectural profession best contribute to this process of change? London, G and Anderson, S (2008) p 6-7 The questions surrounding the issues of housing posed by Geoffrey London and Simon Anderson in the publication Take 7 Housing Kuala Lumpur: How Architects Can Make a Difference provide the starting point for the project work you will undertake this semester in design studio. We suggest that architects can make a difference if as students they become more socially aware and through their work contribute to broader community discussions. The project work in this unit is set in Kuala Lumpur; a city that anticipates rapid growth over the next forty years and whose development to date is no longer seen as sustainable. The aims of this unit is for students to develop an understanding of existing contexts, study precedents, question and challenge the status quo, and explore and test architectural ideas.

1

Learning Outcomes On successful completion of this unit you will be able to: 1. Develop conceptual proposal for housing and develop to a high level of resolution. 2. Interpret and apply the principles of functional organization and space planning. 3. Introduction and application of structural systems and strategies appropriate to your design. 4. Understanding of how materials and finishes impact on architectural form and space. 5. Awareness of basic requirements of the Building Code of Australia, specifically in relation to room heights, ventilation, light, acoustics, access and energy efficiency.

CURTIN UNIVERSITY

2

EHSANOMID | PORTFOLIO

SPACE

Site Location

Inner Private Open Space

Private Family Space(Courtyard)

Courtyard Public And Private Spaces/ Views

Courtyard cross ventilation

FROM

SPACE

FROM

SPACE

A

SPACE

SPACE

B Inner Private Open Space Inner Private Open Space

Private Family Space(Courtyard)

Private Family Space(Courtyard)

How setbacks are used to maintain privacy between neighbours 3

C Air Circulation between the courtyard and adjoining rooms at night (A), (B), (C)

CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

Concept 1900s

2010

Future

1

2 2 3

Malay House

1 - Rainwater Runoff: The steep slope of the roof allows rainwater to quickly run off and prevents it from accumulating on the roof’s surface. This helps prevent water from seeping into the structure. 2 - Ventilation: Malay houses are often designed with elevated floors and open spaces beneath the house. This design allows for natural ventilation and airflow, which can help keep the interior dry during and after heavy rains. 3 - Occupation: In the early 1900s, Malaysia, which was then known as Malaya, was primarily an agrarian society, and agriculture played a significant role in the lives of many Malaysians. Agriculture was a major contributor to the economy during this period.

Apartment-Style Living

The 20th century brought significant urbanization and industrialization to Malaysia, resulting in a notable shift in population from rural villages to cities and towns. This migration from villages to urban areas, including the adoption of apartment-style living, was driven by several factors such as Industrialization and Job Opportunities, Infrastructure Development, Education and Healthcare, Modernization, Cultural Shift.

Hybrid Apartment

Integrating vertical farming with apartment living is a concept that holds several potential benefits for both individuals and communities in the future. Here are some advantages of this idea: 1 - Food Security: It reduces dependence on external food sources, ensuring a more reliable food supply, especially during disruptions like pandemics or extreme weather events. 2 - Cost Savings: Residents can save money on grocery bills over time by growing their own fresh produce. 3 - Environmental Sustainability: Vertical farming uses fewer resources and reduces the carbon footprint associated with transporting food, making it more eco-friendly. 4 - Community Building: It fosters a sense of community among neighbors who can share knowledge, trade produce, and collaborate on maintenance, creating a stronger sense of belonging and cooperation.

4

EHSANOMID | PORTFOLIO

Sun Study

KUALA LUMPUR, MALAYSIA SEASONS TIMES YEAR 2010

M ARCH EQ UI NO X 21 M AR 07: 20 M YT

JUNE SOLSTICE 22 JUN 01:16 MYT

SEPTEMBER EQUINOX 23 SEP 17:04 MYT

EQUINOX

SOLSTICE

Equinox - March 21th

Solstice - June 22th

EQUINOX - SEPTEMBER 23TH

Solstice - December 22th

Custom Solar (kWh/m2)

968

484

Project location: 3.16747903823853, 101.736228942871 Sun study start date time: 2010-01-01 12:00:00 AM Sun study end date time: 2010-12-31 11:59:00 PM

1

Equinox and Solstice Time in Kuala Lumpur – Equinoxes and Solstices Times – Timehubzone. (n.d.). Equinox and Solstice Time in Kuala Lumpur – Equinoxes and Solstices Times – Timehubzone. https://www.timehubzone.com/seasons/malaysia/kuala-lumpur

5

D E C E M B E R SOL ST IC E 2 2 D E C 1 3 :3 0 M YT

CURTIN UNIVERSITY

6

EHSANOMID | PORTFOLIO

Master Plan Zoning

Public

Private

Maximum distance between LRT station to residential buildings in order to minimize noise disturbance coming from LRT

Implement a fresh connection between the LRT station and the bus station for improved accessibility.

Incorporate food and beverage (F&B) facilities that cater to both residents and external customers.

88 surface car-park

A pedestrian walkway with a width of 7.2 meters can accommodate the passage of a fire truck during emergency situations

office tower

7

CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

1 A102

2000 MM LANDSCAP

E

6000 mm

Bus Station 12000 MM(40FT) SETB ACK

001 002

080

078

081

005

077

082

006

076

083

007

075

084

008

074

085

073

086

010

072

087

011

071

088

070

068

012 013

6000 MM(20FT) SETBACK

069

009

2000 MM LANDSCAPE

004

079

6000 mm

90°

12000 MM (40FT)SETBACK

2000 MM LANDSCAPE

003

014

015

016

017

018

019

020

021 022

Drop off

023 024 025 026 027 028 029 030 031

LRT Station

033 034 035

067 066

036

065

037 038

064

056

063

055

039

062

054

040

061

053

060

052

042

059

051

043

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050

057

049

2000 MM LANDSCAPE

7200 mm 032

041

044 045 046

2000 MM LANDSCAPE

6000 MM(20FT) SETBACK

047 048

High-Rise Office Tower

6000 MM(20FT) SETBACK

2000 MM LANDSCAPE

12000 MM (40FT)SETBACK

Master Plan Scale 1:1000

8

EXERIOR WALLS EXERIOR WALLS

EHSANOMID | PORTFOLIO EXERIOR WALLS EXERIOR WALLS EXERIOR WALLS EXERIOR WALLS EXERIOR WALLS W1W1

ASSEMBLY

EXTERIOR WALLS W1 W1 W1 W1 W1

W2W2 W2 W2 W2 W2 W2

W3W3 W3 W3 W3 W3 W3

W4W4 W4 W4 W4 W4 W4

INTERIOR PARTITIONS INTERIOR PARTITIONS INTERIOR WALLS INTERIOR PARTITIONS INTERIOR PARTITIONS INTERIOR PARTITIONS INTERIOR PARTITIONS P1 P1 INTERIOR PARTITIONS P1 P1 P1 P1 P1 P2 P2

9

P2 P2 P2 P2 P2

COMMERCIAL EXTERIOR WALL COMMERCIAL EXTERIOR WALL 3.47 RSI:RSI: 3.47 COMMERCIAL EXTERIOR WALL COMMERCIAL EXTERIOR WALLBRICK 100mm MIXED LIGHT BROWN 100mm MIXED LIGHT BROWN BRICK COMMERCIAL EXTERIOR WALL 25mm SPACE 25mm AIRAIR SPACE RSI: 3.47 COMMERCIAL EXTERIOR WALL RSI: 3.47 25mm SEMI-RIGID INSULATION 25mm SEMI-RIGID INSULATION COMMERCIAL EXTERIOR WALL RSI: 3.47 TAPED WEATHER BARRIER (AB) TAPED WEATHER BARRIER (AB) 100mm MIXED LIGHT BROWN BRICK 100mm MIXED LIGHT BROWN BRICK RSI: 3.47 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING 25mm AIR SPACE 100mm MIXED LIGHT BROWN BRICK RSI: 3.47 25mm AIR SPACE 2x6 STUDS @ 24" O/C WITH BATT INSULATION 2x6 STUDS @ 24" O/CINSULATION WITH R12R12 BATT INSULATION 25mm SEMI-RIGID 25mm AIR SPACE 25mm SEMI-RIGID INSULATION 100mm MIXED LIGHT BROWN 6 MIL POLY 6 MIL POLY TAPED WEATHER BARRIER (AB)BRICK 100mm MIXED LIGHT BROWN BRICK 25mm SEMI-RIGID INSULATION TAPED WEATHER BARRIER (AB) 25mm AIR SPACE 12.5 GYPSUM BOARD 12.5 GYPSUM BOARD 12.5mm OSB SHEATHING 25mmWEATHER AIR SPACE TAPED BARRIER (AB) 12.5mm OSB SHEATHING 25mm SEMI-RIGID INSULATION 2x6 STUDS @ 24" O/C WITH R12 BATT INSULATION 25mm SEMI-RIGID INSULATION 12.5mm OSB@SHEATHING 2x6 24" BARRIER O/C WITH(AB) R12 BATT INSULATION WEATHER 6TAPED MILSTUDS POLY TAPED WEATHER BARRIER (AB)BATT INSULATION 2x6 STUDS @ 24" O/C WITH R12 RESIDENTIAL EXTERIOR WALL RESIDENTIAL EXTERIOR WALL 6 MIL POLY 12.5mm OSB SHEATHING 12.5 GYPSUM BOARD 12.5mm OSB SHEATHING 62x6 MILSTUDS POLY 12.5 GYPSUM BOARD @ 24" O/C WITH R12 BATT INSULATION 2x6 STUDS 24" O/C WITH R12 BATT INSULATION 12.5 GYPSUM 3.47 RSI: 3.47 6RSI: MIL POLY @BOARD 6 MIL POLY EXTERIOR 12.5 GYPSUM BOARD WALL RESIDENTIAL RESIDENTIAL EXTERIOR WALL 12.5 GYPSUM BOARD 12.5mm DARK GREY LINEA FIBER CEMENT PANEL 12.5mm DARK GREY LINEA FIBER CEMENT PANEL RESIDENTIAL EXTERIOR WALL RSI: 3.47 25mm SPACE/ PANEL CLIPS 25mm AIRAIR SPACE/ PANEL CLIPS RSI: 3.47 RESIDENTIAL EXTERIOR WALL 25mm SEMI-RIGID INSULATION 25mm SEMI-RIGID INSULATION RESIDENTIAL EXTERIOR WALL RSI: 3.47 TAPED WEATHER BARRIER (AB) CEMENT PANEL TAPED WEATHER BARRIER (AB) 12.5mm DARK GREY LINEA FIBER RSI: 3.47 12.5mm GREY LINEA FIBER CEMENT PANEL 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING 25mm AIRDARK SPACE/ PANEL CLIPS RSI: 3.47 12.5mm DARK GREY LINEA FIBER CEMENT PANEL 25mm AIR SPACE/ PANEL CLIPS 2x6 STUDS @ 24" O/C WITH R12 BATT INSULATION 2x6 STUDS @ 24" O/C WITH R12 BATT INSULATION 25mm SEMI-RIGID INSULATION 25mm AIR SPACE/ PANEL CLIPS 25mm SEMI-RIGID INSULATION 12.5mm DARK GREY LINEA FIBER CEMENT PANEL 6 MIL POLY 6 MIL POLY TAPED WEATHER BARRIER (AB) 12.5mm DARK GREY LINEACLIPS FIBER CEMENT PANEL 25mm SEMI-RIGID INSULATION TAPED WEATHER BARRIER (AB) 25mm AIR SPACE/ PANEL 12.5mm GYPSUM BOARD 12.5mm GYPSUM BOARD 12.5mm OSB SHEATHING 25mmWEATHER AIR SPACE/ PANEL (AB) CLIPS TAPED BARRIER 12.5mm OSB SHEATHING 25mm SEMI-RIGID INSULATION 2x6 STUDS @ 24" O/C WITH R12 BATT INSULATION 25mm SEMI-RIGID INSULATION 12.5mm OSB@SHEATHING 2x6 STUDS 24" O/C WITH R12 BATT INSULATION TAPED WEATHER BARRIER (AB) 6 MIL POLY TAPED WEATHER BARRIER (AB)BATT INSULATION PARAPET WALL (PANELS) 2x6 STUDS @ 24" O/C WITH R12 PARAPET WALL (PANELS) 6 MIL POLY 12.5mm OSB SHEATHING 12.5mm GYPSUM BOARD OSB 62x6 MILSTUDS POLY 12.5mm GYPSUM BOARD @ SHEATHING 24" O/C WITH R12 BATT INSULATION 2x6 STUDS @ 24"BOARD O/C WITH R12 BATT INSULATION 12.5mm GYPSUM 6 MIL POLY 12.5mm DARK GREY LINEA FIBER CEMENT 12.5mm DARK GREY LINEA FIBER CEMENT 6 MIL POLY PARAPET WALL (PANELS) 12.5mm BOARD PANEL GYPSUM PANEL PARAPET WALL (PANELS) 12.5mm GYPSUM BOARD 25mm SPACE/ PANEL CLIPS 25mm AIRAIR SPACE/ PANEL CLIPS PARAPET WALL (PANELS) 25mm SEMI-RIGID INSULATION 25mm SEMI-RIGID INSULATION 12.5mm DARK GREY LINEA FIBER CEMENT PARAPET WALL (PANELS) 12.5mm DARK GREY LINEA FIBER CEMENT TAPED WEATHER BARRIER (AB) TAPED WEATHER BARRIER (AB) PARAPET WALL (PANELS) PANEL 12.5mm DARK GREY LINEA FIBER CEMENT PANEL 12.5mm SHEATHING 12.5mm OSB SHEATHING 25mm AIROSB SPACE/ PANEL CLIPS PANEL 25mm AIR PANEL 12.5mm DARK GREY LINEA CLIPS FIBER CEMENT 2x6 STUDS @ 24" O/C 2x6 STUDS @ SPACE/ 24" O/CINSULATION 25mm SEMI-RIGID 12.5mm DARK GREY LINEA FIBER CEMENT 25mm AIR SPACE/ PANEL CLIPS 25mm SEMI-RIGID INSULATION PANEL 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING TAPED WEATHER BARRIER (AB) PANELSEMI-RIGID 25mm INSULATION TAPED WEATHER BARRIER (AB) 25mm AIR SPACE/ PANEL CLIPS 12.5mm OSB SHEATHING 25mm AIR SPACE/ PANEL CLIPS TAPED WEATHER BARRIER (AB) 12.5mm OSB SHEATHING 25mm SEMI-RIGID INSULATION TOPPED WITH A O/C 35mm BLACK ALUMINUM TOPPED WITH 35mm BLACK ALUMINUM 2x6 STUDS @A24" 25mm SEMI-RIGID INSULATION 12.5mm OSB 2x6 STUDS @SHEATHING 24" BARRIER O/C TAPED WEATHER (AB) PARAPET CAP PARAPET CAP 12.5mm OSB SHEATHING TAPED WEATHER BARRIER (AB) 2x6 STUDS @ 24" O/C 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING 12.5mm OSB 2x6 STUDS @SHEATHING 24" O/C BLACK ALUMINUM TOPPED WITH A 35mm 2x6 STUDS @SHEATHING 24" O/C BLACK ALUMINUM TOPPED WITH A 35mm 12.5mm OSB PARAPET WALL (BRICK) PARAPET WALL (BRICK) PARAPET CAP 12.5mmWITH OSB TOPPED A 35mm BLACK ALUMINUM PARAPET CAPSHEATHING PARAPET CAP A 35mm BLACK ALUMINUM TOPPED WITH 12.5mm DARK GREY LINEA FIBER CEMENT 12.5mm DARK GREY LINEA FIBER CEMENT TOPPED WITH 35mm BLACK ALUMINUM PARAPET CAP A(BRICK) PARAPET WALL PANEL PANEL PARAPET PARAPET CAP WALL (BRICK) 25mm SPACE 25mm AIRAIR SPACE PARAPET WALL (BRICK) 25mm SEMI-RIGID INSULATION 25mm SEMI-RIGID INSULATION 12.5mm DARK GREY LINEA FIBER CEMENT PARAPET WALL (BRICK) 12.5mm DARK GREY LINEA FIBER CEMENT TAPED WEATHER BARRIER (AB) TAPED WEATHER (AB) PANEL PARAPET WALLBARRIER (BRICK) 12.5mm DARK GREY LINEA FIBER CEMENT PANEL 12.5mm SHEATHING 12.5mm OSB SHEATHING 25mm AIROSB SPACE PANEL 25mm AIR 12.5mm DARK GREY LINEA FIBER CEMENT 2x6 STUDS @ 24" O/C 2x6 STUDS @ SPACE 24" O/CINSULATION 25mm SEMI-RIGID 12.5mm DARK GREY LINEA FIBER CEMENT 25mm AIR SPACE 25mm SEMI-RIGID INSULATION PANEL 12.5mm OSB SHEATHING 12.5mm OSB SHEATHING TAPED WEATHER BARRIER (AB) PANEL 25mm SEMI-RIGID INSULATION TAPED WEATHER BARRIER 25mm AIR SPACE 12.5mm OSB SHEATHING (AB) 25mm AIR SPACE TAPED WEATHER BARRIER (AB) 12.5mm OSB SHEATHING 25mm SEMI-RIGID INSULATION TOPPED WITH A O/C 35mm BLACK ALUMINUM TOPPED WITH 35mm BLACK ALUMINUM 2x6 STUDS @A24" 25mm SEMI-RIGID INSULATION 12.5mm OSB 2x6 STUDS @SHEATHING 24" BARRIER O/C TAPED WEATHER (AB) PARAPET CAP PARAPET CAP 12.5mm OSB SHEATHING TAPED WEATHER BARRIER (AB) 2x6 STUDS @ 24" O/C 12.5mmOSB OSBSHEATHING SHEATHING 12.5mm 12.5mm OSB SHEATHING 12.5mm OSB 2x6 STUDS @SHEATHING 24" O/C BLACK ALUMINUM TOPPED WITH A 35mm 2x6 STUDS @ 24" O/C BLACK ALUMINUM TOPPED WITH A 35mm 12.5mm OSB PARAPET CAPSHEATHING 12.5mmWITH OSB TOPPED A 35mm BLACK ALUMINUM PARAPET CAPSHEATHING PARAPET CAP A 35mm BLACK ALUMINUM TOPPED WITH TOPPED WITH PARAPET CAP A 35mm BLACK ALUMINUM PARAPET CAP TYPICAL INTERIOR PARTITION TYPICAL INTERIOR PARTITION

(W1E) (W1E)

FRR: 1 HR STC: FRR: 1 HR STC: 32 32 TYPICAL INTERIOR PARTITION 1/2" GYPSUM BOARD 1/2" GYPSUM BOARD TYPICAL INTERIOR PARTITION 2x4 @ 24" 2x4 STUDS @STC: 24" O/C TYPICAL PARTITION FRR: 1STUDS HRINTERIOR 32O/C FRR: 1 HR STC: 32 1/2" GYPSUM BOARD 1/2" GYPSUM BOARD TYPICAL INTERIOR PARTITION FRR: 1 HR INTERIOR STC: 32 PARTITION TYPICAL 1/2" GYPSUM BOARD 1/2"STUDS GYPSUM BOARD FRR: 1 HR @ STC: 32 2x4 24" O/C 1/2" FRR:GYPSUM 1 HR STC: 2x4 STUDS @BOARD 24"32 O/C 1/2" GYPSUM BOARD (W1D) INTERIOR PARTITION (W1D) INTERIOR PARTITION 2x4 @ 24" O/C 1/2"STUDS GYPSUM BOARD 1/2" GYPSUM BOARD 1/2" GYPSUM BOARD 1/2" GYPSUM BOARD 2x4 @ 24" O/C FRR: 1 HR STC: FRR: 1 STUDS HR STC: 32 32 2x4 GYPSUM STUDS @ BOARD 24" O/C 1/2" (W1D) INTERIOR PARTITION 1/2" GYPSUM BOARD 5/8" TYPE X GYPSUM BOARD (W1D) 5/8" TYPE X GYPSUM BOARD INTERIOR PARTITION (W1D) INTERIOR PARTITION 2x6 @ 24" 2x6 STUDS 24" O/C FRR: 1STUDS HR@ STC: 32O/C FRR: 1 HR 32BOARD 5/8" TYPE XSTC: GYPSUM BOARD(W1D) 5/8" TYPE X GYPSUM INTERIOR PARTITION FRR: 1 HR STC: 32 INTERIOR 5/8" TYPE XPARTITION GYPSUM BOARD (W1D) FRR: 1 HR @ 5/8"STUDS TYPE XSTC: GYPSUM 2x6 24"32 O/C BOARD FRR:TYPE 1 HRX GYPSUM STC: 5/8" 2x6 STUDS @ 24"32 O/CBOARD 5/8" TYPE X GYPSUM BOARD 2x6 24" O/C BOARD 5/8"STUDS TYPEX@ XGYPSUM GYPSUM BOARD 5/8" TYPE

(W1E) (W1E) (W1E) (W1E) (W1E)

ROOFS

CURTIN UNIVERSITY

ROOFS

ROOF

R1

R1

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING NON VENTED ROOF RSI: 5.80 SBS ROOFING MEMBRANE NONFIBREBOARD VENTED ROOF 1/2" 4" POLYISOCYANATE INSULATION (SLOPED) RSI: 5.80XPS INSULATION 4" RIGID APPLIED MEMBRANE 1/2" OSB SHEATHING @ 12" O/C SBS ROOFING MEMBRANE 11 7/8" ENGINEERED JOIST 1/2" FIBREBOARD 1/2" GYPSUM BOARD INSULATION (SLOPED) 4" POLYISOCYANATE 4" RIGID XPS INSULATION APPLIED MEMBRANE 1/2" OSB SHEATHING @ 12" O/C 11 7/8" ENGINEERED JOIST 1/2" GYPSUM BOARD ROOF DECK RSI: 5.73

R2

R2

SBS ROOFING MEMBRANE ROOFPROTECTION DECK 1/2" BOARD 6" RIGID XPS INSULATION RSI: 5.73 MEMBRANE APPLIED 1/2" OSB SHEATHING 3 1/2" CROSS PURLINS (SLOPED) SBS ROOFING MEMBRANE 11 7/8" ENGINEERED JOIST @ 12" O/C 1/2" PROTECTION BOARD 1/2" RESILIENT METAL CHANNELS @ 12" O/C 6" RIGID XPS INSULATION TWO LAYERS 1/2" GYPSUM BOARD APPLIED MEMBRANE 1/2" OSB SHEATHING 3 1/2" CROSS PURLINS (SLOPED) 11 7/8" ENGINEERED JOIST @ 12" O/C 1/2" RESILIENT METAL CHANNELS @ 12" O/C TWO LAYERS 1/2" GYPSUM BOARD

FLOOR FLOORS SLAB ON GRADE FLOORS F1

F1

F2

F2

RSI: 2.43 FLOOR FINISH 4" CAST IN PLACE CONCRETE 6 MIL ON POLY SLAB GRADE 2 1/2" RIGID XPS INSULATION RSI: 2.43 FLOOR FINISH TYPICAL FLOOR (F9D) 4" CAST IN PLACE CONCRETE 6 MIL POLY 2 1/2"1 RIGID XPS54 INSULATION FRR: HR STC: FLOOR FINISH 3/4" OSB SHEATHING TYPICAL FLOOR (F9D) 11 7/8" ENGINEERED JOIST @ 12" O/C 1/2" RESILIENT CHANNELS @ 12" O/C FRR: 1 HR STC:METAL 54 2 LAYERS 1/2" TYPE X GYPSUM BOARD FLOOR FINISH 3/4" OSB SHEATHING 11 7/8" ENGINEERED JOIST @ 12" O/C 1/2" RESILIENT METAL CHANNELS @ 12" O/C 2 LAYERS 1/2" TYPE X GYPSUM BOARD

10

EHSANOMID | PORTFOLIO

06

05

04

03

02

01

W3 W3

1 A301

W3

W3

W3

W1

W1 DN

W1 W1

W1

W1

6

W3

W3

W3

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EHSANOMID | PORTFOLIO

05

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A W.I.C

Master Bedroom Area: 33.8m2

00

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Bedroom Area: 33.8m2 m m

78 00

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TYPICAL UNIT PLAN-TYPE A - FURNITURE 1 : 100

CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

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2073 mm

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TYPICAL UNIT PLAN-TYPE A

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EHSANOMID | PORTFOLIO

Parapet 19700 mm

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Parapet Roof 19700 mm mm 18500 Roof Level 04 18500 mm 15000 mm Level 04 Level 03 15000 mm 11500 mm Level 03 Level 02 11500 mm 8000 mm Level 02 Level 01 8000 mm 4500 mm Level 01 4500 mm Ground FLoor plan 0 mm Ground FLoor plan 0 mm

North Elevation Scale 1:300

Parapet 19700 mm Parapet Roof 19700 mm 18500 Roof Level 04 18500 mm 15000 mm Level 04 Level 03 15000 mm 11500 mm Level 03 Level 02 11500 mm 8000 mm Level 02 Level 01 8000 mm 4500 mm Level 01 4500 mm Ground FLoor plan 0 mm Ground FLoor plan 0 mm

South Elevation Scale 1:300 15

CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

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EAST

East Elevation 1 : 300 Scale 1:300 0 mm

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EHSANOMID | PORTFOLIO

1 A501 Parapet 19700 mm

Roof 18500 mm

Level 04 15000 mm

Level 03 11500 mm

Level 02 8000 mm

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Ground FLoor plan 0 mm T.O FOOTING -1500 mm

1 A502

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CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING 2% SLOPE

Roof 18500 mm

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LVL RIMBOARD

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WEEPHOLES

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3" CONCRETE BOLT

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BLACK ALUMINUM FASCIA FLASHING

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SLOPED PLYWOOD SHIMS

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3 1/2" ABSORBATIVE MATERIAL

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ALUMINUM FIRE STOP

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1/2" TYPE X GYPSUM BOARD

2% SLOPE

Roof 18500 mm

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Parapet Detail 1 : 10

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EHSANOMID | PORTFOLIO

R1 2% SLOPE

Roof 18500 mm

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MATERIAL

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SEALANT

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SILL GASKET

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WHITE ALUMINUM SOFFIT

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BRICK TIE

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MEDIUM DENSITY SPRAY FOAM INSULATION

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LVL RIMBOARD

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BACKER BOARD

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MORTAR MESH

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WEEPHOLES

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3" CONCRETE BOLT

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BLACK ALUMINUM FASCIA FLASHING

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STRAPPING/ FILLER BLOCK

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SLOPED PLYWOOD SHIMS

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ALUMINUM POST (LOUVRE)

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4" BOLT

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5" SCREW

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3 1/2" ABSORBATIVE MATERIAL

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ALUMINUM FIRE STOP

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INSECT SCREEN

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MATERIAL

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GRAVEL

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BASEBOARD

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WHITE ALUMINUM SOFFIT

12

BRICK TIE

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CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

R1 2% SLOPE

Roof 18500 mm

W5

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DETAIL LEGEND NO.

MATERIAL

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STEEL SHELF SUPPORT

6

DARK GREY PARGING

7

BLACK ALUMINUM FLASHING

8

GRAVEL

9

BASEBOARD

10

APPLIED MEMBRANE

11

WHITE ALUMINUM SOFFIT

12

BRICK TIE

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MEDIUM DENSITY SPRAY FOAM INSULATION

14

LVL RIMBOARD

15

BACKER BOARD

16

MORTAR MESH

17

WEEPHOLES

18

3" CONCRETE BOLT

19

BLACK ALUMINUM FASCIA FLASHING

20

STRAPPING/ FILLER BLOCK

21

SLOPED PLYWOOD SHIMS

22

ALUMINUM POST (LOUVRE)

23

4" BOLT

24

5" SCREW

25

3 1/2" ABSORBATIVE MATERIAL

26

ALUMINUM FIRE STOP

27

INSECT SCREEN

28

BLACK ALUMINUM GUTTER

29

SMOKE STOP

30

ALUMINUM PANEL CLIP

31

ALUMINUM SHELF SUPPORT

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1/2" TYPE X GYPSUM BOARD

7

27

W4

Parapet Detail 1 : 10

8 9

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Detail A503 Scale 1:10

11

20

EHSANOMID | PORTFOLIO

SCHEDULE DOOR

Door Schedule NO.

COU NT

D05 2 D06 2 D01 4 D02 7 D03 4 D04 7

D01 4 D02 7 D03 4 D04 7

D01 4 D02 7 D03 4 D04 7

D01 4 D02 7 D03 4 D04 7

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TYPE

LEVEL

SIZE WIDTH HEIGHT

OFFICE 3 PANELS SLIDING DOOR INTERIOR 2100 x 850

Ground FLoor plan 4600 mm

3500 mm

Ground FLoor plan 850 mm

2100 mm

RESIDENTIAL ENTRANCE DOOR INTERIOR DOOR INTERIOR SERVICE DOOR 3 PANELS SLIDING DOORS

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0 mm

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900 mm 900 mm

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RESIDENTIAL ENTRANCE DOOR INTERIOR DOOR INTERIOR SERVICE DOOR 3 PANELS SLIDING DOORS RESIDENTIAL ENTRANCE DOOR INTERIOR DOOR INTERIOR SERVICE DOOR 3 PANELS SLIDING DOORS RESIDENTIAL ENTRANCE DOOR INTERIOR DOOR INTERIOR SERVICE DOOR 3 PANELS SLIDING DOORS

FIRE RATING

20MIN

20MIN

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20MIN

CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

D01

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EHSANOMID | PORTFOLIO

SCHEDULE WINDOW

Window Schedule NO.

COUNT

TYPE

LEVEL

SIZE WIDTH

HEIGHT

W3

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3 PANELS FIXED WINDOW Ground FLoor plan 4600 mm

3500 mm

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4 4

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1000 mm 900 mm

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FIXED CASEMENT SERVICE WINDOW DOUBLE SLIDING WINDOW RESIDENTIAL SLIDER

Level 01

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1500 mm

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1000 mm 900 mm

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600 mm

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FIXED CASEMENT SERVICE WINDOW DOUBLE SLIDING WINDOW RESIDENTIAL SLIDER

Level 02

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1500 mm

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4 4

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1000 mm 900 mm

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FIXED CASEMENT SERVICE WINDOW DOUBLE SLIDING WINDOW RESIDENTIAL SLIDER

Level 03

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1500 mm

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1000 mm 900 mm

1500 mm 600 mm

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Level 04

1500 mm

600 mm

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FIXED CASEMENT SERVICE WINDOW DOUBLE SLIDING WINDOW RESIDENTIAL SLIDER

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900 mm

1500 mm

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CURTIN UNIVERSITY

DESIGN 302 | 2011 | SUSTAINABLE, AFFORDABLE HOUSING

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EHSANOMID | PORTFOLIO

UNIT OUTLINE Design301 Bukit Jalil Theater

Introduction.

Learning Outcomes

This course focuses on advanced principles of architectural design with a specific emphasis on the integration of acoustics and lighting in the creation of a public theater. Students will explore the design of a cultural center within Bukit Jalil Park, emphasizing the incorporation of a theater, rehearsal hall, public amenities, and related spaces. The optional selection of the site within the park encourages individual exploration and contextual understanding.

On successful completion of this unit you will be able to:

27

1. 1. Collaborate in teams of students while acting as a mentor within a team. 2. 2. Acknowledge, comprehend and describe 3 significant schools of thought as exists in national architectural practice today through the study of precedent texts, projects and exemplar architects 3. 3. Produce work of your own in the manner or guise of these three schools in order to establish a comprehension of them as forms of practice and as ways of seeing the world. 4. 4. Discuss the short-comings of such a systemized approach of classification as well as its benefits. 5. 5. To test each of these schools of thought in the development of three small projects. 6. 6. Utilise this approach to allow you to establish an ‘informed position’ in architecture on your own terms, to understand the bias of each school of thought. That this may further elucidate the development of your own highly attuned manner of thinking and working. 7. 7. Finally, to align yourself with one of these schools of thought so as to make a project of heightened intellectual weight, complexity and response to site.

CURTIN UNIVERSITY

Render

28

EHSANOMID | PORTFOLIO

Site Location

The location is truly exceptional. Perched atop the highest point in Bukit Jalil Park, it offers breathtaking views of the surrounding landscape. Additionally, its deliberate placement at the intersection of major highways ensures that it naturally commands attention and promotes itself. This prime spot ex-

29

Site Location: Bukit Jalil Park Scale N/A

udes urban energy and excitement, effortlessly drawing the gaze of passersby. The hope is that this dynamic setting ignites the curiosity of random drivers on the highway, enticing them to explore the theater and its surroundings.

CURTIN UNIVERSITY

DESIGN 301 | 2010 | PUBLIC THEATER

Concept

The site benefits from a connection to the park on one side, while also being prominently visible from two adjacent highways on the other side. This arrangement provides theatergoers strolling through the park with an

adventurous and exploratory experience as they seek out the theater building, which cleverly promotes itself to passersby on the nearby highways.

Form Follows the Flow

“Embracing the site’s unique characteristics, the theater’s architectural design is driven by the concept of ‘form follows flow.’ Situated at a dead-end location, the architecture aims to channel and enhance the movement of people, creating

Zoning

an inviting and communal structure that not only welcomes the audience but also leaves them with an enriched and memorable experience as they enter and exit the site.

Theater

GYM

WEWORK

Food & Beverages

Food & Beverages 30

EHSANOMID | PORTFOLIO

Bubble Diagram

VIP ENTRANCE

BACK STAGE OP SIDE (OPPOSITE PROMPT)

PROMPT SIDE STAGE MANAGER

STAGE

PROPERTY STORE

EMERGENCY EXIT

EMERGENCY EXIT

TOILET

THEATER

TOILET GYM/ REHEARSAL

OFFICE/ WE WORK CONTROL ROOM

CAFE/ BAR

FOYER BOX OFFICE

PUBLIC ENTRY

31

CAFE/ BAR

view seats, should be able to see at least two-thirds of the back wall of the acting area, unless the space is primarily for dance where all four corners of the CURTIN UNIVERSITY performance area need to be clearly visible.

Acoustic considerations Side seats

Side seats can be problematic in the early stages of a Auditorium form and volume

which dominates the weaker late reflections from the room surfaces. Further from the stage, listeners hear a combination of direct sound and reflected sound DESIGN 301 | 2010 | PUBLIC THEATER arriving as a series of discrete reflections, spaced in time. The reflected sound should arrive in an ordered way, maintaining the realism of the direct sound, reinforcing it and not containing strong long-delayed reflections or echoes, which affect its quality.

design – with the term ‘restricted view’ ringing alarm bells for many. While the seats may offer an oblique view of the plays actiona(depending the format) it should the acoustician crucial role upon in ensuring optimal sound always be remembered that they offer proximity to the quality in an auditorium. The key responsibilities include: performance, enhance theatrical intimacy, contribute to a sense of cohesion and animate the side walls. The 1. Clarity for Audience: amount side seats needsmember to be as part Ensure that of every audience can hear the of perfor80balanced Auditorium design mance distortion. the clearly overallwithout provision. Simple 3D modelling can be very Minimize coloration, preservingthe the true quality of the of sound helpful in communicating viewing restrictions produced. these positions.

Reflected sound REFLECTED SOUND

SOURCE Source

DIRECT SOUND Direct sound

10000 15000 20000

100 150 200 250 300 350 400 450 500 550 Optimum Reverberation Time (sec) 600 650 100 700 150 200 750 250 800 300 350 850 400 900 450 500 950 550 1000 600 650 2000 700 3000 750 800 4000 850 5000 900 6000 950 1000 7000 2000 8000 3000 4000 9000 5000 6000 10000 7000 15000 8000 20000 9000

100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 15000 20000

Optimum Reverberation Time (sec)

Optimum Reverberation Time (sec)

2. Ensemble Performance: The volume of any room has a direct relationship to localisa Facilitate effective communication among performers by enits reverberation time and it is therefore important size is o suring they can hear each other well. Create an acoustic environmenttoconducive to ensemble establish the correct4.6.1volume for a particular acousti Indeed, the volume of a room is directly linked to its replaying. performance type, orverberation range oftime. types, at antoearly stage. It is crucial determine the appropriate Overhe volume early in the design process, especially concerning provide 80 Auditorium design 3. Factors Influencing Sound: For example, see Figure 4.6.2. the type or range of performances to be hosted. The volConsider the construction, geometry, and finish of the audiume significantly influences the acoustic characteristics of commu torium as they significantly impact acoustics. the space, including how sound reverberates, and plays Focus on minimizing interference 3.5 and distortion in sound Oth The volume of any room has a direct relationship to localisa a fundamental role in creating an optimal environment for propagation. its reverberation time and it is therefore important size is o success specific types of performances. 3 to establish the correct volume for a particular acoustic 4. Proximity to the Stage: used by performance type, or range of types, at an early stage. Overhe Close to the stage, prioritize direct 2.5 sound, which dominates Speech For example, see Figure 4.6.2. provide comple over weaker late reflections. Opera commu Chamber Music 2 Direct sound contributes to a clear and immediate listening subvert 3.5 OrchestralOth Musi experience. Church/Organ success 1.5 and theM 3 used by 5. Spatial Considerations: 2.5 enhanc Speech comple Opera Acknowledge that as the audience1 moves further from Chamber Music 2 subverte experie Orchestral Music the stage, they experience a blend of direct and reflected Church/Organ M 0.5 1.5 and the sounds. informe enhanc 1 Ensure that reflected sounds are organized, reinforcing the 0 experie stage th realism of the performance. 0.5 informe bestage enve 0 th Room Volume (m3) 6. Controlled Reflections: 3.5 directio be enve Manage reflected sound to arrive in an ordered manner, enRoom Volume (m3) 3 directio hancing the direct sound without introducing strong, long-deOrc Speech Orc layed reflections or echoes. 2.5 Speech Opera Opera betwee Prevent reflections that might compromise the quality of the between Chamber Music 2 Chamber Music Orchestral Music performance. scatte Orchestral Music Church/Organ Music ororscatt 1.5 Church/Organ Music In summary, the acoustician’s task is to meticulously design control 1 control the auditorium’s acoustic characteristics to create an immerthe hall sive and high-quality auditory 0.5 experience for both performers Chart volumes and reverberation timestimes 4.6.2 showing Chart showing volumes and reverberation commu the hal and the audience, considering factors like sound directness, 0 Chart showing volumes and reverberation times commu reflection organization, and spatial4.6.2 dynamics.

200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 15000 20000

Room Volume (m3)

Room Volume (m3)

Speech

For speech, the auditorium volume can be fairly low, around 5m3 /per person. The early to late energy ratio should be high – late energy arriving beyond 100m at a high level affects intelligibility. Reverberation times For speech, the auditorium fairly should bevolume appropriatecan to thebe use, aroundlow, one second at mid-frequencies. In theatres, seating should be as close around 5m3 /per person. The early to late energy ratio as possible to the stage, favouring a fan-shaped seating should be high – late plan energy arriving beyond and multiple balconies. Good 100m sightlinesat generally make for good acoustics as what the eye can see a high level affects intelligibility. Reverberation times the

Speech

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EHSANOMID | PORTFOLIO

LP

LP

LP

LP

64.186 7169

THU

64.367IL 64.864 7170 IL

64.428 7167

SGB LP

THU/POK

65.173

AN KAWASAN HUT

LP

7165 7164 IL PJ

65.128 65.258 65.269 7162 PJ

7174

7160

POK

PJ 7158 7155

7176

PJ TANGGA

64.483 7153

B SG

SUIS BOX

TANGGA

64.919IL 65.317 65.289 7132 7133

TS

65.565

IL PJ

7220

THU

7135 7136

PJTANGGA

65.591

12000 MM

7218

LCUT

65.574 7216

POK

(40 FT) SET

65.254 63.647IL 65.178 64.449 TS 64.762IL 65.212 64.430 7126 7125

7123

7117 7119

PJTANGGA

PJ

IL

POK

7122

PJ

IL PBU

7120

7128 7130

7111

BACK

PJ

7121

POK

64.462 7093

POK

64.925

7094

63.778IL 7091

7179 NC

65.379

64.518 7089

7177 PR

7088

7087

7074 7175 POK

POK

65.065 64.633IL 64.878 PJK

64.549 7081

IL 7072 NC

65.601 7070

64.958 64.578IL 7083

POK

7085

PJK

IL

64.AN84&2 65.653ASAN HUT 7068

66.95 67 8 7046

KAW

POK

65.470 7066

POK

POK

67.038 7047

POK

20 00 MM

67.721 7049

69.382 7044

LANDSC AP

POK

69.572

TS

E 1LP 109 771. 7037 NA

VI

20

00

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LA

ND SC

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73.326 12

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Site Plan Scale 1:1000

00 0

M

M

(4 0F T

)S

ET

BA

CK

2000 MM LANDSCAPE MM 12000

(40FT)

SE TBAC

K

87.058

CURTIN UNIVERSITY

D

C

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A

DESIGN 301 | 2010 | PUBLIC THEATER

21000 3000

9000

E

3000

9000

07

01

8000

07

02

8000

07

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8000

07

04

8000

07

08

05

9000 8000

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AA DD

06

A 8000

07

8000

BB

01

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05

04 3000

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08

1

07

F

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AA

Control Room Forestage Property store Stage manager Emergency exit Box Office Food and beverages Toilet

07

05

A

1. 2. 3. 4. 5. 6. 7. 8.

08

8000

17

8000

09

8000

10

8000

11

8000

12

8000

13

8000

14

15

Second Floor Plan 1 : 600

Ground Floor Plan Scale 1:600

H G

9000

03

3000

9000

07

21000

02

BB

9000

06

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EHSANOMID | PORTFOLIO

21000 3000

9000

D

C

B

A

E

3000

9000

02 01

8000

6000 02

8000

01 03

8000

06

04

03 8000

04

05

8000

06 05

AA DD

06

A 8000 Void

07

8000

BB

6000

CC

3000

08

J I

CC

6000

6000

07

H G

05 9000

05

02

3000 21000

9000

06

BB

A

1. 2. 3. 4. 5. 6. 7.

1 35

Gym Balcony Reception office Locker/ changing room Restroom Waiting area Wework

First FLoor Plan

First Floor Plan Scale 1:600

1 : 600

F

DD

AA

8000

17

8000

09

8000

10

8000

11

8000

12

8000

13

8000

14

15

CURTIN UNIVERSITY

21000 3000

9000

E

D

C

B

A

DESIGN 301 | 2010 | PUBLIC THEATER

3000

9000

02

01

8000 02

8000

01 03

8000

06

04

03 8000

04

05

9000 8000

05

06

AA DD

06

A 8000

07

8000

BB

CC 08

3000

J

07

9000

H G

05 9000

05

9000

02

03

3000

BB

I

21000

CC

A

1. 2. 3. 4. 5. 6. 7.

Gym Balcony Reception office Locker/ changing room Restroom Waiting area Wework

1

F

DD

AA

8000

17

8000

09

8000

10

8000

11

8000

12

8000

13

8000

14

15

Second Floor Plan 1 : 600

Second Floor Plan Scale 1:600

36

EHSANOMID | PORTFOLIO

37

CURTIN UNIVERSITY

38

South

1

1 : 600

EHSANOMID | PORTFOLIO

15

14

13

12

11

10

09

17

Roof 15000.00 Third Floor Plan 12000.00 Second Floor Plan 9000.00 First FLoor Plan 6000.00 Ground Floor Plan 0.00

North Elevation Scale 1:600

2

North 1 : 600

17

09

10

11

12

13

14

15

Roof 15000.00 Third Floor Plan 12000.00 Second Floor Plan 9000.00 First FLoor Plan 6000.00 Ground Floor Plan 0.00

South Elevation Scale 1:600

39

CURTIN UNIVERSITY

DESIGN 301 | 2010 | PUBLIC THEATER

01

02

03

04

05

06

07

08

01

02

03

04

05

06

07

08 Roof 15000.00 Third Floor Plan

12000.00 Roof 15000.00 Second Floor Plan 9000.00 Third Floor Plan 12000.00 First FLoor Plan

6000.00 Second Floor Plan 9000.00

Ground Floor Plan First FLoor Plan 0.00 6000.00 Ground Floor Plan 0.00

West Elevation Scale 1:600

West 1 West 1 11 :: 600 600

08

07

06

05

04

03

02

01

08

07

06

05

04

03

02

01 Roof 15000.00 Third Floor Plan

12000.00 Roof 15000.00 Second Floor Plan 9000.00 Third Floor Plan 12000.00 First FLoor Plan

6000.00 Second Floor Plan 9000.00 First FLoor Plan Ground Floor Plan 6000.00 0.00

East Elevation Scale 1:600

East 2 East 1 : 600

Ground Floor Plan 0.00

40

EHSANOMID | PORTFOLIO

yrenihcam egats dna egats ehT 211

ecafrus draobdrah mm6 doowylp mm81 doowylp mm81 nrettab mm05 x mm05 dap enerpoen mm57 x mm57 enarbmem foorp-pmad

tnemniatnoc rof diov thgieh raelc mm55 ediw mm003

mm011 xorppa htped latoT .noitcurtsnoc roolf gnurps-imeS

pirts doowdrah mm22 )spirts evoorg & eugnot mm57( mm 34 noitcelfed pots

tnemniatnoc rof diov thgieh raelc mm55 ediw mm003

rebmit mm001 x mm52 evaew teksab ni dial sertnec mm004 ta nrettab mm001 x mm05 tesffo evaew rednu dial mm002 yb

ecafrus ecnamrofrep reyal troppus elbixelf-imes

1

Section 1

enahteruylop ralullec enarbmem foorp-pmad

1 : 400 engineered eciohc htiw draboard ob derewith enignechoice reyal beech raew dooor wdmaple rah elpam ro hceeb ,kawear o oak, hardwood layer top lenasemi-flexible p elbixelf-imes popanel t lower lenap esemi-flexible lbixelf-imes rewopanel l cellular enahterupolyurethane ylop ralullec damp-proof enarbmem foormembrane p-pmad Vinyl performance surface proprietary fully-sprung floor. Total depth approx 45mm mm54 xorppa htped latoT .roolf gnurps-ylluf yrateirporp ecafrus ecnamrofrep lyniV

margaid pu-dliub roofl egatS 1.5.5 eulblaocrahC :margaiD mm54 xorppa htped latoT .roolf gnurps-ylluf yrateirporp ecafrus lyniV

41

Second Floor Plan 9000.00 First FLoor Plan 6000.00

Ground Floor Plan 0.00

enarbmem foorp-pmad mm521 xorppa htped latoT .noitcurtsnoc roolfecnad gnurps-ylluF

Section A-A Scale 1:400

Roof 15000.00

Theater -4900.00

CURTIN UNIVERSITY

DESIGN 301 | 2010 | PUBLIC THEATER

distance front row eye position to Point P The greater this distance, the steeper the resultant rake.Working from Point P and following the instructions above. The theory is established by returning via the auditorium.The sitting rake in the stalls. This results in a

parabolic curve.to the seating profile, becoming steeper as the distance increases from Point P grows. Every person in the audience produces a comparable viewing situation.

42

EHSANOMID

ARCH.PORT