PP 2 - Module 4: Administering Architect's Services PDF

Summary

This document details the regular services of an architect, including economic feasibility studies, project financing, architectural programming, space planning, site selection and analysis, and site utilization and land-use studies. It provides a practical approach to supporting clients in their projects.

Full Transcript

ADMINISTERING THE REGULAR
SERVICES OF THE ARCHITECT:
prepared by:
AR. JASPER CUETO
Professional Practice 2
 85

The Architect's
Regular Services
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Module 4
 86
The Architect's Regular Services

The Client’s Support Circle
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 87
SCOPE:

Economic Feasibility Study
Project Financing
Architectural Programming
Space Management/Planning
Site Selection and Analysis
THE CLIENT’S
SUPPORT CIRCLE Site Utilization and Land-Use
Studies
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AKA. PRE-DESIGN SERVICES
Promotional Services

Subfunctions:
Presentation Boards
 88

THE CLIENT’S
SUPPORT CIRCLE

ECONOMIC FEASIBILITY STUDY
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A study to determine the viability of a project such as its cost development versus its
potential return to the Owner. A detailed cost-benefit analysis can guide the client
and the architect in selecting a more viable alternative plan.
 89

THE CLIENT’S
SUPPORT CIRCLE

PROJECT FINANCING
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Architect assists in the determination of requirements of lending agencies,
income- expense relationship and relative demand for different building
types in actual negotiations.
 90

THE CLIENT’S
SUPPORT CIRCLE

ARCHITECTURAL PROGRAMMING
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A systematic approach to finding, analyzing, and elaborating on the underlying
needs of a design project. The architectural program lays the groundwork for a
unique, meaningful, and ultimately practical architectural solution.
 91

THE CLIENT’S
SUPPORT CIRCLE

ARCHITECTURAL PROGRAMMING
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THE CLIENT’S
SUPPORT CIRCLE

SPACE PLANNING
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A vital part of the schematic design process, and it is used to create a
geometric layout of a space that meets the needs of the project. Space
programming/planning is, by its very nature, an iterative process that evolves
in response to the needs of the client.
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THE CLIENT’S
SUPPORT CIRCLE

space planning: Bubble Diagram
A Bubble Diagram is a very simple (hand) drawing
that consists of roughly drawn bubbles
(representing spaces) connected by solid lines,
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broken lines or wavy lines etc. to specify the type of
relationship between the spaces.

The main purpose of the bubble diagram is to help
you translate the program into a strategy or form.
Bubble diagrams simplify this step by graphically
depicting the program and allowing for quick
expressions, multiple layouts, and revisions.
 94

THE CLIENT’S
SUPPORT CIRCLE

space planning: Bubble Diagram

The bubbles can be used to represent different
kinds of spaces in a plan, varying in shape to
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represent features of greater or lesser importance
and size. The bubble diagram can create a rough
sense of flow which is used to develop a more
refined plan. A bubble diagram floor plan, for
example, can represent the flow of a space and
provide information about the sizes of rooms
relative to each other.
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THE CLIENT’S
SUPPORT CIRCLE
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THE CLIENT’S
SUPPORT CIRCLE

space planning: Bubble Diagram
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THE CLIENT’S
SUPPORT CIRCLE

SITE SELECTION AND ANALYSIS
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Assisting the client in locating sites for the proposed project and evaluating their
adequacy with regards to topography, subsurface conditions, utilities, development
costs, climate, population, legal considerations and other factors.
 98

SWOT analysis in Site Selection and Analysis is used to evaluate the
suitability of a site for a specific project. Here’s how it applies:
SITE SELECTION
AND ANALYSIS Strengths: Advantages like location, good topography, and
available infrastructure.
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Weaknesses: Issues such as environmental constraints, poor
accessibility, or zoning limits.
Opportunities: Future development potential, sustainability
options, or government incentives.
Threats: Risks from environmental factors, regulatory changes, or
competition.

By analyzing these factors, architects and developers can make
informed decisions about site viability and potential challenges.
 99 TOWS

SITE SELECTION
AND ANALYSIS
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A TOWS Analysis is an extension of the SWOT Analysis
framework that identifies your Strengths, Weaknesses,
Opportunities and Threats but then goes further in looking to
match up the Strengths with Opportunities and the Threats with
Weaknesses. It’s a great next step after completing your SWOT
and allows for you to take action from the analysis.
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SITE SELECTION
AND ANALYSIS
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Adding the relationship between the internal and external factors makes
TOWS a much more useful matrix than a standalone SWOT and an
obvious next step. The main purpose of a TOWS Analysis is to:
Reduce threats
Take advantage of opportunities
Exploit strengths
Remove weaknesses
A well thought out TOWS can not only provide you with detail of your
SWOT, but also some data to make a decision about your overall direction.
111 What is the difference between SWOT and TOWS?

The big difference between a TOWS and a SWOT is the relationships
between the internal and external factors, examining how they link up,
impact and influence each other…
Strengths to Opportunities:
The S-O focuses on leveraging the site's strengths (e.g., good location,
infrastructure) to maximize opportunities, such as urban development
or proximity to amenities, enhancing the value or utility of the site.
Strengths to Threats:
The S-T examines how strengths can be used to mitigate threats to the
SITE SELECTION site, such as environmental risks or competition from nearby
AND ANALYSIS developments, ensuring the site remains viable.
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Weaknesses to Opportunities:
The W-O considers how opportunities can be utilized to address
weaknesses (e.g., poor accessibility or limited infrastructure) and
improve the site's potential for successful development.
Weaknesses to Threats:
The W-T highlights how weaknesses may increase existing threats
(e.g., environmental hazards or zoning restrictions) and identifies
strategies to mitigate these risks while planning the project.
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THE CLIENT’S
SUPPORT CIRCLE

SITE UTILIZATION AND LAND-USE STUDIES
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The detailed analysis of the site involves the identification of a site’s development
potentials through the proper utilization of land. The analysis covers the context of
the site as well as that of its surrounding environment and the development controls
that apply to the site and its environs.
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THE CLIENT’S
SUPPORT CIRCLE

PROMOTIONAL SERVICES
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Projects may require promotional activities in order to develop and generate financial support
and acceptance from governing agencies or from the general public. In such cases, Architect
can act as the agent of the Owner by producing and coordinating the additional activities
necessary to complete the services. In all such activities, the Architect must maintain his
professional status as the representative of the Owner.
104

THE CLIENT’S
SUPPORT CIRCLE

SUB-FUNCTION: PRESENTATION BOARDS

Presentations are visual tools that represent a projects and works in
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architecture. Architectural presentations are designed both for juries and
submissions during student years and for customers in professional life.
Architects present their projects of different scales as architectural
presentation boards.
105 SUB-FUNCTION:
PRESENTATION BOARDS

TYPES OF ARCHITECTURAL
PRESENTATION BOARDS

CONCEPTUAL BOARD

Concept boards are essential for initiating an
architectural project, focusing on key elements
such as analysis, theoretical concepts, problem
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analysis, and proposed solutions. They evaluate
the project's context and requirements while
exploring design theories that inform the direction.
By identifying challenges within the scope, concept
boards enable architects to develop effective
strategies to address these issues, forming a
comprehensive foundation for the design process
that guides subsequent stages of development.
106
SUB-FUNCTION: PRESENTATION BOARDS

TYPES OF ARCHITECTURAL PRESENTATION BOARDS

TECHNICAL DRAWING BOARD

Architectural technical drawings are crucial
for representing the comprehensive details
of a project, including architectural,
structural, electrical, mechanical, plumbing,
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and other systems. For student and
application projects, these drawings
should be presented on technical drawing
boards, showcasing the complete plans
and necessary detail drawings to
effectively communicate the project's
scope and construction requirements.
107 SUB-FUNCTION:
PRESENTATION BOARDS

TYPES OF ARCHITECTURAL
PRESENTATION BOARDS

ANALYSIS BOARD

Analysis boards are critical tools for architects,
showcasing thorough and detailed evaluations
before a project begins. They typically include site
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analysis, urban scale analysis, sociocultural factors,
and physical conditions such as climate and
geography. Environmental considerations are also
part of the board, providing a holistic view of the
context. This information serves as a foundation for
developing the project concept, ensuring that all
relevant aspects are thoroughly examined.
108
The Architect's Regular Services

THE DESIGN SERVICE
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109 An architect is more than a designer of buildings. He or she is a
highly trained, licensed professional who provides important
professional services that benefit both his or her clients and the
general public at large.
Pre-Design Services
Design Services
Specialized Allied Services
Construction Services
Post Construction Services
THE DESIGN Comprehensive Architectural
Services
SERVICES Design-Build Services
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 PRE-DESIGN SERVICES
110
1. The Architect can render the services in a manner of:
Architect’s Own Staff
By Association or Consultation

2. Pre-Design Services
Economic Feasibility Study
Project Financing
Architectural Programming
THE DESIGN Space Management/Planning
Site Selection and Analysis
SERVICES Site Utilization and Land-Use Studies
Promotional Services
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DESIGN SERVICES
Regular Services – sequence of 4 phases:
Schematic Design Phase
Design Development Phase
Contract Document Phase
Construction Phase
 SPECIALIZED ALLIED SERVICES
111
Interior Design Services
Acoustic, Communication and Electronic Engineering Services
Landscape Design Services
Physical Planning Services
Comprehensive Planning Services

CONSTRUCTION SERVICES
1. Four Principal members in Design and Building Construction
Owner
THE DESIGN Architect and Engineers
SERVICES Contractor
Individual or group of individuals who assist in the supervision
and delivery of work
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2. Full-Time Supervision

3. Construction Management
Construction Manager
Functions of a Construction Manager
Legal Responsibility of the Construction Manager
Other Contracting Concepts
 POST-CONSTRUCTION SERVICES
112
1. Post-Construction Services
Building and Equipment and Maintenance
Building and Grounds Administration
Post-Construction Evaluation

COMPREHENSIVE ARCHITECTURAL SERVICES
1. Scope of Comprehensive Architectural Services
Pre-Design Services
Design Services
THE DESIGN Specialized Allied Services
SERVICES Construction Services
Post-Construction Services
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2. Project Management
a. Basic Function of a Project Manager
Pre-Construction Phase
Construction Phase

DESIGN-BUILD SERVICES
Design-Build Services by Administration
Design-Build Services on a Guaranteed Maximum Cost
113

DESIGN PROCESS
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The architectural design process involves developing and analyzing a
construction project in 6 organized phases. This structured approach ensures
effective management and communication of design intent, minimizing risks
associated with costly delays. Given the complexity and regulations in
building construction, it's crucial to avoid design revisions once construction
begins, as significant changes would require demolition. By providing clear
phases, the process facilitates efficient information production and helps
maintain transparency throughout the project.
114

An Architectural Contractual Framework refers to the structure and
arrangement of legal agreements that define the roles,
responsibilities, and relationships between all parties involved in an
architectural project. This framework outlines how the architect,
CONTRACTUAL
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client (owner), contractors, and other stakeholders interact and
collaborate throughout the design and construction process.
FRAMEWORK
The Architectural Contractual Framework is essential for ensuring
clear communication, project coordination, and legal compliance
among all parties. The framework helps mitigate risks, manage
disputes, and ensure that all parties are aware of their obligations
under the law and the project requirements.
 Design-Bid-Build (DBB)
115
The Design-Bid-Build (DBB) method is a traditional project
delivery approach that separates design and construction
processes. While it is familiar and can theoretically reduce
costs, it often leads to increased project expenses due to
conflicts between design documents and on-site
constructability. Additionally, selecting the lowest bidder can
compromise quality, as contractors may need to cut corners
to maintain profitability within a tight budget.
DELIVERY
Design-Build (DB)
APPROACHES
The Design-Build (DB) method allows for quick project
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delivery by splitting components into packages, enabling
simultaneous design and construction to meet deadlines.
Owners can set a maximum price early on, providing
significant cost control. This method is effective for projects
with clearly defined requirements and is particularly
advantageous when schedules are tight, as it eliminates
delays typically associated with the bidding and
procurement processes.
 Construction Manager at Risk (CMAR)
116
CMAR, or Construction Manager at Risk, is a modern project delivery
method where the owner selects a Construction Manager based on
criteria beyond just cost, such as quality, experience, and project
approach. In this method, design and construction are contracted
separately, allowing for a focus on schedule adherence and project
execution. The CM is responsible for overseeing the construction while
mitigating risks throughout the project lifecycle.

Integrated Project Delivery
Integrated Project Delivery (IPD) is a relatively new construction
DELIVERY method that has gained traction in the past decade. In IPD, the owner
APPROACHES selects an architect/engineer (A/E) and construction manager (CM)
before design begins, leading to a joint contract among the three parties
after collaboratively setting goals and objectives. This method
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encourages early contractor involvement, resulting in streamlined
designs aligned with project objectives. The owner plays a vital role in
the team, and IPD promotes cost minimization and efficiency through
collaboration.
It is important to note that the owner, A/E, and CM are legally bound
into a single entity so risk that is normally assigned to one party is now
spread to all parties, which is uncomfortable for many owners.
However, the increased collaboration among the parties is thought to
reduce the overall risk.
 Public-Private-Partnership (3P)
117 The Public-Private Partnership (P3 or PPP) delivery model involves a
contract between a government entity and a private corporation to fund,
construct, renovate, and maintain public infrastructure. While more common
internationally, it is gradually being adopted in certain U.S. public projects.
The private entity receives income generated from the project over a set
period to repay and profit from its investment. For instance, a private
company might finance a city's light rail system in exchange for a share of
the revenue from ridership fees.

Benefits of Public-Private Partnerships (3P)
1. Cost Relief for Taxpayers: PPPs can alleviate some or all of the funding
DELIVERY burdens on taxpayers for public projects.
APPROACHES 2. Expertise and Efficiency: Private entities often bring greater expertise and
efficiency in construction and operation, driven by profit motivations.
3. Regulatory Oversight: Public entities maintain regulatory control over
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infrastructure operations, ensuring proper management while allowing
private involvement.

Utilizing a P3 model requires public entities to accept certain risks. While profit-
driven efficiency from private corporations can lead to shortcuts in operation
and maintenance, potentially causing long-term issues, public entities must find
a balance between budget constraints and the control they relinquish to private
partners. Eventually, public entities will need to manage the infrastructure
operations themselves after contracts end or seek new bidders for continued
services.
118
The architect creates the architectural design document to
document the design factors and the specific choices that have
been made to satisfy those factors. The document serves as a
way for the architect to show his work when making design
decisions. The architecture design document includes the
conceptual, logical, and physical designs.

Design documentation is a collection of documents and
resources that covers all aspects of your product design.
Documentation should include information about users, product
DESIGN features, and project deadlines; all essential implementation
DOCUMENTATION details; and design decisions that your team and stakeholders
have agreed on.
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Example of Design Documentation:
Printed Complete set of plan or PDF copy
Minutes of every meeting
Site Pictures
Construction Logbook
Compilation of Schematic Designs
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THANK YOU!
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PREPARED BY:
AR. JASPER CUETO