ARCHITECTURE PORFOLIO LAM NGUYEN
FUTURISTIC I ARTIFICIAL INTELLIGENT I COMPUTATIONAL DESIGN I BIM I ARCHITECTURE & INTERIOR DESIGN
Lam Nguyen I Architecture Porfolio l Pages 1
CONTENTS SELECTED WORKS My Architecture Portfolio showcases my Master’s works completed at the University of East London (UK) in 2022-2023, alongside a compilation of professional projects amassed over eight years of hands-on experience inVietnam. My proficiency extends to integrating B.I.M and Computational Design, with a recent emphasis on Artificial Intelligence. I am actively pursuing opportunities as a Computational Architect, driven to contribute my expertise and leverage the latest technology to create innovative and efficient designs.
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BIOFUSION BENCH ACADEMIC PROJECT I 2022-2023 p.g 04-07
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HONG NGOC
HEATHCARE I BIM PROJECT I 2021 p.g 26-29
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BAN-ANG LAM NGUYEN
E16, London 07988673754 lam.nn@outlook.com
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PERSONAL PROJECT I 2022 p.g 22-25
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ACADEMIC PROJECT I 2022-2023 p.g 08-13
PAPER RESEARCH I 2022-2023 p.g 20-21
FUTURE LONDON
A.I TRAINING
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TRILLIUM PAVILION
ACADEMIC PROJECT I 2022-2023 p.g 14-19
CHUNG CƯ KẾT HỢP THƯƠNG MẠI - DỊCH VỤ - VĂN PHÒNG ASIANA CAPELLA 184 Trần Văn Kiểu, Phường 10, Quận 6, TP.HCM
ẶT ĐỨNG| MẶT ĐỨNG KHỐI ĐẾ
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HƯỚNG BẮC TÂY BẮC
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SEASTAR HOTEL
HOSPITALITY PROJECT I 2021 p.g 34-37
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BIM PROJECT I 2021 p.g 30-33
RESIDENTIAL PROJECT I 2018 p.g 38-43
PORSCHE SHOWROOM
ASIANA CAPELLA
Lam Nguyen I Architecture Porfolio l Pages 3
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BIOFUSION BENCH ACADEMIC PROJECTS Date: 2022-2023. Sofware: Maya, Rhino, Midjourney. Digital Frabrication: 3d Printing.
The concept for BioFusion bench was born out of an innovative application of AI, particularly Midjourney, which guided an exploratory journey into conceptualization (Figure 1.3).
Figure 1.2 Pages 4
To bring this concept to life, I leveraged computational tools, with Maya playing a prominent role and employing a range of commands. This process ultimately led to the realization of the envisioned organic form (Figure 1.1 & 1.2). The partnership between AI and computational tools showcases a potent merger of technology and design, propelling architectural innovation. This synergy propels architectural ideas forward, representing a substantial stride towards the future of design and production. The BioFusion bench serves as a prime example of this tegration, demonstrating how AI elevates architectural efficiency and sustainability.
Figure 1.1
Figure 1.2 Lam Nguyen I Architecture Porfolio l Pages 5
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Figure 1.4
Component number. BioFusion bench is a highly modular bench design that utilizes 9 components with 5 core components and 4 mirrored parts whith design to fit with 3d printing. This method allows for simple extensions to a greater size or the development of different shapes while remaining versatile with the same 5 primary components (Figure 1.4). Sustainability material. Using recyclable PLA material, each bench component is 3D printed, resulting in a sustainable and environmentally friendly manufacturing process. PLA, derived from renewable resources like cornflour or sugarcane, is a biodegradable thermoplastic known for its strength and durability, making it an excellent choice for long-lasting furniture production (Figure 1.4). Figure 1.5 Assembling and testing with colleagues , family members. Pages 6
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Assembling and Exhibition. In the final phase, following the assembly of the 9 components, we conducted stress tests to ensure the stability of the Bio Bench with multiple individuals seated on it. Proudly exhibited at the middle school exhibition during the concluding semester, the project represents the culmination of our efforts . (Figure 1.5 & 1.6). Figure 1.6 Lam Nguyen I Architecture Porfolio l Pages 7
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URBAN VISION ACADEMIC PROJECT
Date: 2022-2023. Sofware: Maya, Rhino, Midjourney, Stable Diffusion, Lora AI training. Award: 2nd I Future London Design. Our award-winning urban project, developed for the Future London design competition, secures the 2nd prize among 70 entries. Shaped by the BioFusion structure, the triangular design adeptly balances regeneration and heritage preservation. Focused on equitable community development, our solution capitalizes on Croydon’s proximity to London and its tech hub status, creating opportunities for new housing, commercial spaces, and improved public areas (Figure 2.4).
Exploring ideas through AI involves the generation and evaluation of diverse design options, extending beyond architectural form. AI can uncover innovative solutions not previously considered, providing insights for future urban planning and cityscapes while also streamlining pathways. Beyond reference images, the incorporation of ControlNet in Stable Diffusion proves crucial. This involves integrating supplementary input conditions like sketches, outlines, and depth maps to guide and refine output, ensuring consistency with the Croydon Site’s vision. Additionally, using Midjourney images as data and Kohya’s GitHub aids in training AI to tailor materials for the project, emphasising modularity, triangularity, and sustainability. This approach aims to push the boundaries of creativity and problem-solving in urban development (Figure 2.1).
Figure 2.1 Pages 8
Figure 2.2
Figure 2.3 Preservating & Demolishing. Preserving historic buildings and demolishing non-historic commercial buildings.
Utilising pathways simulation in Maya with Nhair and Fluid to simulate a series of network systems for connections and occupations optimised for detour paths and determine static and dynamic areas (Figure 2.2)
Movement. Connect internally to the Urban Structure. Mid-rise to high-rise main road, pedestrian and cycling buildings from west to east, avoiding impact on historic buildings. friendly and continuous.
Figure 2.4 Lam Nguyen I Architecture Porfolio l Pages 9
Figure 2.5
Figure 2.6 Pages 10
Figure 2.7 Figure 2.5: Diagram illustrating modular housing unit structure. Figure 2.7: Diagram illustrating the evolving of housing over time to meet changing needs while preservingthe environment. Figure 2.7 & 2.8 & 2.10: Twinmotion rendering of housing modular.
Figure 2.8 Lam Nguyen I Architecture Porfolio l Pages 11
Integrating images of the structure into AI, particularly Midjourney, unleashes a transformative process in generating interior ideas that seamlessly align with the architectural framework. The sophisticated algorithms within AI utilise these structural visuals to conceptualize interiors that resonate with the inherent design (Figure 2.9).
Figure 2.9
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Figure 2.10 Lam Nguyen I Architecture Porfolio l Pages 13
TRILLIUM PAVILION
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ACADEMIC PROJECT
Date: 2022-2023. Sofware: Rhino, Grasshopper, Python, Midjourney, Stable Diffusion, ChatGPT. Digital Fabrication: Laser cutting, Hot wire Robotics.
Figure 3.1
The Trillium Pavilion concept endured a notable transformation, transitioning from its original form as housing units in the Urban project to streamline timber components (Figure 3.1). Through meticulous adaptation, these elements found a new purpose as a pavilion structure. Integrating AI-inspired and exploratory conceptual ideas (Figure 3.3), ranging from the BioFusion bench to Urban Housing Units and the Trillium Pavilion, ensures a seamless blend of innovation and design influence (Figure 3.2). This repurposing demonstrates a harmonious convergence of architectural creativity, sustainable materials, and technological inspiration, resulting in a pavilion that embodies the evolution of design concepts within the project’s broader framework.
Figure 3.2 Lam Nguyen I Architecture Porfolio l Pages 15
Figure 3.3
Figure 3.4 Connection details design and sample A modular design philosophy optimizes time and materials, yielding complex, aesthetically pleasing shapes from polystyrene, aligning with the pavilion’s structural curvature while keeping unique patterns (Figure 3.5). Pages 16
Figure 3.5
Grasshopper, pivotal computational design tool, optimizes the intricate fabrication process by automating workflow components. It precisely generates timber contours, arranging them on 1x1m plywood sheets to minimize material wastage through efficient nesting. Exploring innovative ways to augment GH with AI, we simplify auto-nesting using Python code, diminishing reliance on numerous nodes. This unique integration enhances efficiency, merging computational design methods and saving time. Architects and designers benefit from a streamlined process, reducing the need for extensive visual programming and enabling a deeper focus on design intricacies. The subsequent section outlines the step-by-step AI-driven workflow for reducing Grasshopper nodes (Fgure 3.5).
Figure 3.6
Figure 3.7 Lam Nguyen I Architecture Porfolio l Pages 17
Figure 3.8 Real-scale model to test the tolerrance. Figure 3.9 Experienced ideas in weaving by robotics.
Figure 3.10 Pages 18
Figure 3.11
Figure 3.12 Lam Nguyen I Architecture Porfolio l Pages 19
A.I TRAINING
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3 The training process heavily relies on the “sd-scripts” repository from Kohya’s GitHub, specifically tailored for Stable Diffusion, playing a pivotal role in our workflow. Using Midjourney for data preparation, 61 facade design images were generated, each aligning with my conceptualization while maintaining style and perspective consistency (Figure 4.1). Control Net’s integration becomes crucial in this phase, employing supplementary input conditions like sketches, outlines, and depth maps for precise guidance (Figure 4.2). However, the initial output from Stable Diffusion + ControlNet adheres to a basic glass facade, aligning with the outline input. (Figure 4.3).
Figure 4.2
Figure 4.1 Pages 20
Figure 4.4
RESEARCH PAPERS
Date: 2022-2023. Sofware: Midjourney, Stable Diffusion, ControlNet, Kohya Github.
Continuously applying the Lora model, trained by MJ data, refines the output, aligning more closely with my conceptual vision while preserving the building’s shape (Figure 4.6). Within this experiment, the input image blends outlines from Rhino/Maya and an existing area from Google Maps with an aerial view, feeding into the Stable Diffusion framework (Figure 4.6). The main goal is to produce visual outputs, yet the model falls short due to the absence of training from an aerial view and the insufficient clarity of the input image (Figure 4.7 & 4.8).
Figure 4.3
Figure 4.9 Lam Nguyen I Architecture Porfolio l Pages 21
Ý TƯỞNG KIẾN TRÚC
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Ý TƯỞNG KIẾN TRÚC
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Ý TƯỞNG KIẾN TRÚC
BAN ANG
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Figure 5.1 Pages 22
WELCOME CENTER
Company: Personal Project. Date: 2022. SOW: Project Pertner, Concept Design to Construction Drawing. Area: GFA 3,000 sqm.
Figure 5.2 Nestled in the serene Pine Forest of Ang Village, the residents exude warmth and hospitality, maintaining their traditional customs with stilted roofs, captivating dances, and timeless folk songs. Festivals like “Mung com moi” and “Hat Cha” further enrich their cultural tapestry. The architectural design harmoniously weaves the ethnic identity and culture of the indigenous Thai people, seamlessly integrating with nature. Positioned uniquely, the building faces the lake on both sides, embraced by a surrounding pine forest. This thoughtful placement preserves the existing landscape and venerable pine trees, creating a symbiotic relationship between the built environment and the rich, natural heritage of the location. Lam Nguyen I Architecture Porfolio l Pages 23
Figure 5.3
Tên dự án / Project Nam
BẢ WELCO
HỒ LỚN
Địa điểm: Phoenix Mộc Ch
Chủ đầu tư / Owner's:
CÔNG TY TN LỊCH QUỐ HOÀNG Chấp thuận / Approved by:
A
Tư vấn thiết kế kiến trúc
Tư vấn kết cấu/ C&S co
Tư vấn thiết kế cơ điện/
Tư vấn thiết kế PCCC/ F
Giai đoạn thiết kế/ Desig
LƯU Ý:
Bản vẽ này không được dùng đ Người thi công phải kiểm tra tấ khi khởi công. Không theo tỷ lệ bản vẽ, chỉ dù Bản vẽ này được đọc kết hợp đồng thầu. Bản vẽ và thiết kế này được gi không được sự chấp nhận.
WARNING:
This drawing shall not be used Contractor to verify all dimensio commencing any work or Prepa Do not scale drawings, use wri This drawing is to be read in co conditions of contract. This drawing and design is cop without the permission of inves
PHỐI CẢNH NGOẠI THẤT
Chỉnh sửa Revision.
Ngày Date
Nội Ame
Tên bản vẽ/ Drawing Tit
Phối cảnh Tổ CNDA / Project manager:
Chủ trì triển khai / Developmen
Thiết kế / Designed by:
Figure 5.4
HỒ NHỎ
Kiểm / Checked by:
Thể hiện / Drawn by:
Ngày Phát Hành / Issue Date:
06/20/21
Project Code Originator Phas
BAWC
Figure 5.5 3 Pages 24
A³
Pieu Thai scarf a unique cultural feature.
N ĐỒI CHÈ
RỰC RỠ KHĂN PIÊU MÀU THỔ CẨM
PHỐI CẢNH NỘI THẤT
Moc Chau Plateau with tea hills curve. 3
Figure 5.6
Figure 5.7 Lam Nguyen I Architecture Porfolio l Pages 25
HONG NGOC
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HEALTHCARE PROJECT
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Company: TTT Corporation. Project Management: Turner & Townsend. Date: 2020-2021. SOW: BIM Manager, Tender to Handover. Area: GFA 78,000 sqm I 500 beds.
Hong Ngoc general hospital is a substantial undertaking, comprising 16 levels with 2 basements, and spanning a 2.5-hectare area. Notably, it is the first hospital in VN designed in compliance with the UK Government’s Health Building Notes. With an overall cost of around 100 million USD, the interior work constitutes about 8 million USD. What sets this project apart is its uniqueness as a large-scale endeavor, pioneering the comprehensive application of BIM throughout the entire process of interior design, manufacturing, and installation.. AUTODESK INNOVATION AWARDS 2021 - TOP 3 YOUTUBE NEWSPAPER
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Figure 6.1 Lam Nguyen I Architecture Porfolio l Pages 27
Accurate quantity take-off. Apply quantity take-off for interior, extracting more than 20 categories, such as: more than 1000 sets of doors, iron…etc, thousands of sanitary equipment & furniture… etc and over 30,000 m2 finishing floor/ceiling,…etc. Holobuilder 360. The 360 degree camera app captures weekly progress updates compared to the BIM model. Irishvr Simulation. Doctors will be wearing virtual reality glasses to walk inside the building during the design phase to experience the finished interior as well as interact inside some specific room inside the building like Operating Room,…
Figure 6.1
DALUX TwinBIM - AR. Applications brings the model out to the construction site to check the actual conflict.
Figure 6.2 Pages 28
Figure 6.3
Figure 6.4 Dalux TwinBIM - AR Combine with other contractors The first hospital in Vietnam to be designed according to the UK Government’s Health Building Notes and with LOD 400. All interior details - including fit-out, joinery, built-in furniture, and loose furniture are modeled completely and incorporated fully into the BIM platform with architecture, structure, façade, MEP, etc. Lam Nguyen I Architecture Porfolio l Pages 29
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PORCHE SHOW BIM PROJECT
Company: TTT Corporation. Project Management: Turner & Townsend. Date: 2020-2021. SOW: BIM Manager, Tender to Handover. Area: GFA 13,000 sqm.
Porsche Saigon is the first complex center in the Asia Pacific region to be designed according to the new identity of Destination Porsche. The 13,000 square meter development consists of 3-storey automobile showroom, office space, car workshop and 1 basement parking, including a showroom displaying up to 20 models of cars, working offices, repair workshops and hi-tech technical workshops, staff training centers, parking lots. The project successfully achieved LEED v4 BD+C : NC Gold Certification.
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WROOM Figure 8.1
Figure 8.2 Lam Nguyen I Architecture Porfolio l Pages 31
3D Digital Twin Platform. This sideby-side comparison illustrates how the project has progressed over time, weaving a narrative that can span days, months, or even years (Figure 7.4 & 7.5). Combine with other contractors. Streamlined BIM-based construction workflow integration enables you to make the most out of your BIM/ NDC investments. Architecture, façade, structure, and MEP firms were to work with the interior firm in a unique general 3D model to visualise, check, discuss and find possible solutions for any collision or problem.
Figure 8.4
Figure 8.3
Figure 8.5 Pages 32
Figure 8.6 Figure 7.3 & 7.4 & 7.5 : Interior and exterior images capture by Porsche Showroom after handover
Figure 8.7 Lam Nguyen I Architecture Porfolio l Pages 33
|PHỐI CẢNH MẶT ĐỨNG| MẶT ĐỨNG KHỐI ĐẾ
SEASTAR HOTEL
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HOSPITALITY PROJECT
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Company: TTT Architecture. Date: 2021. SOW: Project Lead, Concept Design to Construction Drawings. Type: Facade Design.
Introducing Seastar Hotel 4-star: A Facade Design Project Gracing Ha Long Bay. Situated in Quang Ninh province, this architectural gem draws tourists to the UNESCO-listed Ha Long Bay. The facade is a testament to the modular design, resembling the undulating waves of the ocean, meticulously crafted from aluminium. The accompanying diagram unveils the structural prowess, showcasing a steel frame and aluminium finishing, seamlessly integrating drainage and electric solutions within each module. Seastar Hotel stands as a distinctive silhouette, marrying innovative design with the natural beauty of its iconic surroundings in Ha Long Bay.
Figure 9.2 Pages 34
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Figure 9.1 Lam Nguyen I Architecture Porfolio l Pages 35
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Figure 9.3
Figure 9.4 Pages 36
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HỐI ĐẾ
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1 2 2 3 4 1 Inox 316. 2 Hairline aluminium sheet. 3 Stainless steel trash barrier. 4 Rainwater drainage pipe. 5 Electrostatic painted copper-colored aluminium. 6 2mm thick zinc-plated aluminium back panel. 7 316 stainless steel perforated sheet. 8 8mm thick hot-dip galvanized steel sheet. 9 2mm gap.
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DETAIL A
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DETAIL B
HƯỚNG BẮC Figure 9.5 TÂ
Figure 9.6 Lam Nguyen I Architecture Porfolio l Pages 37
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2 1 New lourve. 2 New decorative molding. 3 New concrete slab. 4 Demolished column. 5 New column. 6 New wall. 7 New concrete. 8 Existing concrete slab. 9 Existing wall. 10 Position for decorative light connector waiting. 11 Wall-mounted water shut-off valve. 12 Inox overflow water pipe D20 13 Bolt connection @300mm installed eccentrically.
Revit is a powerful software tool that plays a pivotal role in the architectural and engineering design process. It allows professionals to initiate their projects from the conceptual stage and progress seamlessly through various design iterations, ultimately resulting in a comprehensive 3D model. This model is developed up to Level of Development (LOD) 350, which represents a high level of detail and accuracy (Figure 9.3 - 9.9).
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ELEVATION
Figure 9.7 Pages 38
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Figure 9.5
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Figure 9.8 LEVEL 8
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Figure 9.9 Lam Nguyen I Architecture Porfolio l Pages 39
Figure 10.1 Pages 40
ASIANA CAPELLA
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RESIDENTIAL PROJECT
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Company: TTT Architecture. Date: 2018-2021. SOW: Project Lead, Concept Design to Construction Drawings. Area: GFA 45,000 sqm I 20-storey.
Asiana Capella owns a strategic location right in front of Tran Van Kieu street, which is the center of the modern and bustling Binh Phu residential area. This project was formed with the mission of creating a new future for Sai Gon – Cho Lon area. It is not only a luxury apartment combined with high quality of commercial and service, but also a new and outstanding highlight in District 6 with its breakthrough architectural design.
Lam Nguyen I Architecture Porfolio l Pages 41
CHUNG CƯ KẾT HỢP THƯƠNG MẠI - DỊCH VỤ - VĂN PHÒNG ASIANA CAPELLA 184 Trần Văn Kiểu, Phường 10, Quận 6, TP.HCM
General Site Plan. With an area of 4,275m2, the project includes 391 apartments and commercial serviced apartments along with a series of internal utilities such as swimming pools, children’s playground, reading, garden, BBQ garden, and yoga area, … CHUNG (Figure 10.2).CƯ KẾT HỢP THƯƠNG MẠI - DỊCH VỤ - VĂN PHÒNG ASIANA CAPELLA 184 Trần Văn Kiểu, Phường 10, Quận 6, TP.HCM
Figure 10.2
U-Shape. The design unit chose the layout for the U-shaped tower block with the abdomen facing south, so most of the apartments have a good orientation. The front of the building faces the main street and the west, so the apartments in this location are specially arranged. We rotate these rooms to ensure that no function room has a direct west direction. Some rooms with a west approach have a loggia to minimise solar radiation (Figure Ư KẾT HỢP THƯƠNG MẠI - DỊCH VỤ - VĂN PHÒNG ASIANA CAPELLA 10.3). ểu, Phường 10, Quận 6, TP.HCM OWNER CHỦ ĐẦU TƯ
Figure 10.3 -
CÔNG TY TNHH
GOTEC VIỆT NAM Tầng 2, 157-159 Trần Bình Trọng, P.2, Q.5, TP.HCM 028.38363773 028.38380068 On behalf of the Owner - Technical-Design Manager
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Đại diện Chủ Đầu Tư-Trưởng phòng quản lý thiết kế-Kỹ thuật
801-A
MAI THỊ MỸ HẠNH
X8
7200
A.9,13,17.07 82.72 m² (74.3 m²)
A.9,13,17.08 61.85 m² (56.8 m²)
B.9,13,17.03 50.33 m² (44.8 m²)
A.9,13,17.09 48.55 m² (45.0 m²)
X7
B.9,13,17.05 65.69 m² (60.3 m²)
B.9,13,17.04 61.96 m² (56.2 m²)
B.9,13,17.06 64.64 m² (58.1 m²)
DIRECTOR Giám Đốc
SF +34.900 L +47.550 FF
CT1 12.6 m²
P1
SF +47.500 L +60.150 FF
F1 L
KT ĐIỆN 1.9 m²
B.9,13,17.02 70.83 m² (65.2 m²)
A.9,13,17.10 62.12 m² (57.6 m²)
P2
6900
SF +60.100 L
1200
KT1 1.9 m² KT NƯỚC 1.9 m²
F1 L
CT2 12.6 m²
B.9,13,17.01 53.83 m² (49.2 m²)
F1 L
SF +60.100 L
RÁC 2 3.4 m²
RÁC 1 3.5 m²
Y4
B.9,13,17-.07 67.18 m² (61.6 m²)
P6
Y3 THS KS. PHẠM ANH TUẤN 36300
LƯU Ý: - Bản vẽ này phải được đọc cùngvới các bản vẽ liên quan như: kết cấu, cơ điện, nội thất - Bản vẽ này không được dùng để xây dựng nếu không được phê duyệt theo qui định - Tất cả các kích thước thể hiện là milimet ngoại trừ có ghi chú khác - Tất cả các kích thước phải được kiểm tra ngoài công trường trước khi tiến hành thi công. Không theo tỉ lệ bản vẽ, chỉ được dùng kích thước đã được ghi - Nhà thầu gửi bản vẽ xác định các kích thước, các vấn đề cần làm sáng tỏ khi có sự khác biệt giữa thiết kế và thực tế thi công - Bản vẽ này được đọc kết hợp với thuyết minh và chỉ dẫn kỹ thuật - Bản vẽ và thiết kế này được giữ bản quyền và không sao chép nếu không được sự chấp thuận của chủ đầu tư và tư vấn thiết kế
10450
6500
39400
A.9,13,17.05 48.27 m² (45.1 m²)
X4
A.9,13,17.01 65.09 m² (60.4 m²)
A.9,13,17.04 67.23 m² (61.3 m²)
A
Địa chỉ: 24 Nguyễn Cửu Vân, P17, Q.Bình Thạnh, HCM Tel: +84 (28) 35144659; Tel & Fax: +84 (28) 3514 2892 [E]info@TTAD.biz;TTADCo@gmail.com;[W]www.TTAD.biz Đăng ký: 341/6B Lạc Long Quân, P5, Q11, TP.HCM MANAGING DIRECTOR/DESIGN DIRECTOR GIÁM ĐỐC / CHỦ NHIỆM THIẾT KẾ
X5
B.9,13,17.11 70.36 m² (64.8 m²)
B.9,13,17-.08 57.10 m² (52.3 m²)
A
800-A
7200
800-A
STRUCTURE - M&E DESIGN CONSULTANT ĐƠN VỊ TƯ VẤN THIẾT KẾ KẾT CẤU - CƠ ĐIỆN
SF +34.900 L +47.550 FF SF +47.500 L +60.150 FF
P5
TRẦN KHÁNH TRUNG
Y5
FF +34.950
F1 L F1 L
P3
A.9,13,17.06 67.23 m² (61.3 m²)
P4
KT NƯỚC 1.9 m²
5700
FF +34.950
F1 L
Y6
3350
2200
HÀNH LANG 232.0 m²
X6
ARCHITECTURE DESIGN CONSULTANT Đơn Vị Tư Vấn Thiết Kế Kiến Trúc
6200
Y7
Y2 B.9,13,17.10 73.04 m² (65.8 m²)
2200
A.9,13,17.02 73.37 m² (66.4 m²)
X2
Rev Đ.c
Date Ngày đ.c
Revision Contents Nội dung đ.chỉnh
Approval by Ký duyệt
PROJECT DỰ ÁN
B.9,13,17-.09 70.85 m² (63.4 m²)
CHUNG CƯ KẾT HỢP THƯƠNG MẠI - DỊCH VỤ - VĂN PHÒNG ASIANA CAPELLA
9400
X3
7200
184 Trần Văn Kiểu, P.10, Q.6, TP.Hồ Chí Minh STAGE GIAI ĐOẠN
A.9,13,17.03 79.72 m² (74.4 m²)
Y1
THIẾT KẾ KỸ THUẬT ITEM HẠNG MỤC:
KIẾN TRÚC
X1 DRAWING TITLE TÊN BẢN VẼ
1600
7600
1600
6100
3100
9500
7700
7700
5650
6600
1600
6600
F9
1850
67200
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801-A
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Figure 10.4
PROJECT ARCHITECT Chủ Trì TRẦN KHÁNH TRUNG DESIGNED BY Thiết Kế
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PHẠM HỒNG KHIẾT TÂM DEVELOPED BY Thiết kế triển khai: DRAWN BY Người vẽ COMPLETION DATE Ngày Phát Hành
SCALE Tỉ Lệ
PHỐI CẢNH TỔNG THỂ
Figure 10.5 PHỐI CẢNH MẶT ĐỨNG
Lam Nguyen I Architecture Porfolio l Pages 43
ARCH Embarking on CAPELLA’s Architectural Odyssey: Tracing Progress from 2018 to 2021. In 2018, a groundbreaking use of REVIT for the first time in a high-rise building, with over 400 A0 drawings submitted in three weeks, ensuring timely design development. The doors of the sale gallery swung open in 2019, accompanied by a small model. In 2020, adept resolution of RFI/RFA challenges during construction was paramount to ensuring the integrity of subsequent designs. As of 2021, meticulous supervision guides the author through the finishing phase, encapsulating the evolution of CAPELLA over this transformative journey.
lected Projects using Revit
c dự án sử dụng Revit án: Asiana Capella
điểm: Quận 6, TP.HCM
h trạ2018. ng: Đang hoàn thiện Submited more than 400 A0 drawings in 3 weeks to ensure the deadlines were met during the design development.
2019. Sale gallery opened.
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2020. Resolved RFI/RFA during construction phase.
2021. Supervising the author to complete the work.
EVOLUTION OF CAPELLA 2018-2021 Lam Nguyen I Architecture Porfolio l Pages 45
REFERENCES LAM NGUYEN
E16, London 07988673754 lam.nn@outlook.com
University of East London. TTT Corporation. TTT Architects. Sicart & Smith Architects. Turner & Townsend. Hong Ngoc General Hospital. Gotec Vietnam. PORSCHE Vietnam
THANKS FOR YOUR TIME!! Pages 46