This document outlines the syllabus for a construction management course. It provides the instructor's contact information, course details including objectives, topics, assignments, exams and policies. The course will cover construction industry overview, the architect's role, project lifecycles, emerging technologies and more. Students will complete individual assignments, a group project, quizzes, a midterm and final exam throughout the semester.

1. CONSTRUCTION MANAGEMENT
ARCH 5591

2. Course Syllabus

3. Course Syllabus
Part 1: Course Information
Instructor Information
Instructor: Hiruy Girma
Office: Staff Room
Office Hours: Wednesday 11:30 AM – 12:30 PM &
4:30 PM – 5:30 PM
E-mail: hiruygirma326@gmail.com

4. Course Syllabus
Part 1: Course Information
Course Outline
Course Title: Construction Management
Course Code: Arch 5591
Credit Hours: 3
Contact Hours: 3hrs
Lab Hours: 0
Prerequisite: None
Course Category: Building Con. & Techniques

5. Course Syllabus
Part 1: Course Information
Course Description

6. Course Syllabus
Part 1: Course Information
Course Objective

7. Course Syllabus
Part 1: Course Information
Textbooks and Course Materials

8. Course Syllabus
Part 2: Topic Outline/Schedule

9. Course Syllabus
Part 3: Grading Policy
Points Description
10 Pop quizzes
10 Individual Assignments
20 Group Project
20 Mid-term exam
40 Final exam
100 Total Points Possible

10. Course Syllabus
Part 4: Course Policies
Attend Class
Complete Assignments

11. INTRODUCTION TO CONSTRUCTION
MANAGEMENT AND ARCHITECTURAL PRACTICE
Overview Of The
Construction Industry
01

12. INTRODUCTION TO CONSTRUCTION
MANAGEMENT AND ARCHITECTURAL PRACTICE
Overview Of The
Construction Industry
01
Architect’s Role In
Construction Projects
02
Project Lifecycle And
Delivery Methods
03

13. INTRODUCTION TO CONSTRUCTION
MANAGEMENT AND ARCHITECTURAL PRACTICE
Overview Of The
Construction Industry
01
Architect’s Role In
Construction Projects
02
Project Lifecycle And
Delivery Methods
03
Architectural Practice
Competencies
04

14. INTRODUCTION TO CONSTRUCTION
MANAGEMENT AND ARCHITECTURAL PRACTICE
Overview Of The
Construction Industry
01
Architect’s Role In
Construction Projects
02
Project Lifecycle And
Delivery Methods
03
Architectural Practice
Competencies
04
Emerging Technologies In
Construction
05

15. Overview of The Construction Industry
TYPES OF CONSTRUCTION PROJECTS
• Residential Construction
Single family detached homes
Multifamily housing
Prefab, modular, kit homes
Accessory Dwelling Units (ADUs)
• Commercial Construction
Office towers
Retail – Shopping malls, big box stores, boutique retail
Hotels and resorts
Mixed use spaces

16. Overview of The Construction Industry
TYPES OF CONSTRUCTION PROJECTS
• Institutional Construction
Community infrastructure: Schools
Hospitals and Medical office buildings
Museums
Churches, courthouses, cultural centers
Sports stadiums and arenas
• Industrial Construction
Manufacturing plants
Warehouses and distribution centers
Data centers
Mixed use spaces

17. Overview of The Construction Industry
TYPES OF CONSTRUCTION PROJECTS
• Infrastructure Construction
Transportation
Roads
Highways
Railways
Bridges
Airports
Water infrastructure
Supply, treatment and distribution systems
Wastewater management plants
Energy infrastructure
Power generation station, transmission grid

18. Overview of The Construction Industry
ECONOMIC IMPACT
Globally
• Generates over $10 trillion in annual spending
Largest construction markets: China, USA & India
• Accounts for 13% of total GDP
• Provides over 7% of jobs
In Ethiopia
• Accounts for 4.4% of total GDP
• Employees around 1.3 M people
During economic downturns, infrastructure spending by
governments is often used to stimulate the economy and
create jobs.

19. Overview of The Construction Industry
INDUSTRY STAKEHOLDERS
• Owners
• Architects
• Engineers
• Contractors
• Suppliers
• Government Entities
• Local Community

20. Architect’s Role
DESIGN INFLUENCE ON CONSTRUCTABILITY
• Building forms and layouts

21. Burj Khalifa (Dubai, UAE)
Architect: Adrian Smith

22. Sydney Opera House (Sydney, Australia)
Architect: Peter Hall and Jorn Utzon

23. Heydar Aliyev Center (Baku, Azerbaijan)
Architect: Zaha Hadid

24. Guggenheim Museum (Bilbao, Spain)
Architect: Frank Gehry

25. Walt Disney Concert Hall (Los Angeles, USA)

26. Crystal Cathedral (California, USA)
Architect: Philip Johnson

27. Milwaukee Art Museum (Wisconsin, USA)
Architect: Santiago Calatrava

29. Architect’s Role
DESIGN INFLUENCE ON CONSTRUCTABILITY
• Building forms and layouts
• Structural systems selection
• Building envelope characteristics
• Material selection

30. Architect’s Role
DESIGN INFLUENCE ON CONSTRUCTABILITY
• Building forms and layouts
• Structural systems selection
• Building envelope characteristics
• Material selection
Construction Drawings and Specifications
• Site plans
• Floor plans
• Building & Wall sections
• Elevations & interiors
• Reflected ceiling plans
• Technical specifications

31. Architect’s Role
Bid Process and Procurement
• Prepare the bid document
• Reviewing qualifications of interested contractors
• Providing clarifications to bidders on design intent & contract documents
• Assessing suitability of proposed material brands
• Researching material costs
• Balancing cost control with quality objectives and risk mitigation
• Ensuring the awarded agreements fulfil design requirements

32. Architect’s Role
Bid Process and Procurement
• Prepare the bid document
• Reviewing qualifications of interested contractors
• Providing clarifications to bidders on design intent & contract documents
• Assessing suitability of proposed material brands
• Researching material costs
• Balancing cost control with quality objectives and risk mitigation
• Ensuring the awarded agreements fulfil design requirements
Construction Submittals and RFIs
• Meticulous checking of contractor plans, product data sheets,
material/finishes samples for conformance with contract documents
• Issuing prompt and clear replies to submittals and RFIs to prevent
delays

33. Architect’s Role
Site Observation and Progress Inspection
• Verifying in-place work matches approved plans, submittals, and
specifications for quality and completeness
• Spot checking dimensional accuracy, reviewing structural rebar spacing
and connections, formwork, HVAC duct and pipe runs, electrical
conduits and fixtures, plumbing piping and equipment
• Comparing on-site activity pace and task progress to the baseline
schedule
• Preparing observation reports with comprehensive records of progress,
issues identified, and any action items requiring follow-up.
NB: Photo documentation adds clarity

34. Architect’s Role
Project Closeout and Commissioning
• Performing punch list walkthrough to address final fix items, work
deficiencies, or corrections needed
• Confirming all fire safety, accessibility, system performance
commissioning checklists are completed
• Overseeing owner training on building equipment operation and
maintenance
• Verifying regulatory compliance for occupancy permitting and that the
building is ready for handoff

35. Project Phases
Pre-Design Phase
• Establishing the project scope, budget, schedule targets
• Analyzing site conditions, zoning requirements, infrastructure needs
• Conducting feasibility studies
• Verifying regulatory compliance for occupancy permitting and that the
building is ready for handoff
• Site analysis: topography, utilities, environmental factors, geotechnical
conditions
• Shaping the owner’s goals, spatial needs, and functional priorities
through the programming process

36. Project Phases
Schematic Design Phase
• Developing initial design concepts through sketches, massing models,
and spatial relationship diagrams
• Preparing drawings to illustrate the general building scale, organization
of program elements, and adjacencies.
• The building form starts to emerge – overall shape, facades, circulation
• Structural and MEP systems are sized to accommodate design loads
and building functionality
• Incorporating owner’s reviews on the schematic design

37. Project Phases
Design Development Phase
• Refining AR floor plans, sections and elevations
• Dimensioning, room sizes, openings, and other key details are
developed
• Increasing engineering coordination across structural, mechanical,
electrical and plumbing systems
• Major building materials, finishes, and assemblies are selected
considering aesthetics, performance, and costs
• Energy modeling is conducted to analyze envelope and systems from
sustainability viewpoint

38. Project Phases
Construction Documents Phase
• Highly detailed drawings and technical specifications are produced
• Plans, sections, elevations, schedules, diagrams convey architectural
build details
• Structural, MEP, civil drawings are integrated into coordinated
document set.
• Specification manual: provides technical data on all materials, finishes,
equipment, quality standards.

39. Project Phases
Bidding and Procurement Phases
• Bid packages for contractors are issued to request proposals from
interested contractors
• A selection process analyzes bidder qualifications, budget breakdowns,
proposed scopes, pricing, schedules, contingencies
• Contracts are awarded to the general contractor
NB: Agreements incorporate the contract drawings and specifications that
define project scope and quality expectations.

40. Project Phases
Construction Phase
• The project gets physically built by the contractor based on the contract
documents within the agreed schedule and budget
• The architect conducts site inspections and observations at regular
intervals to monitor adherence, progress, and work quality.
• Contractor payment applications are reviewed and approved based on
percentage work completed per the schedule
• Changes during construction are incorporated through change order
and supplemental documents

41. Project Phases
Closeout and Commissioning Phase:
• As construction nears completion, punch lists are issued to address any
final fix items or deficiencies
• Final compliance inspections are completed for building, fire,
accessibility codes, system performance
• For major projects, owner personnel are trained on building operations
and maintenance procedures
• The building is commissioned and occupancy granted once fully
conforming to contract requirements

42. Emerging Technologies
Building Information Modeling (BIM)
• Model-centric process
• Immersive Visualization
• Coordination and Clash Detection
• Cost Estimation
• Construction Planning
• Lifecycle Management

43. Emerging Technologies
Virtual Reality / VR

44. Emerging Technologies
Virtual Reality / VR
• VR provides an immersive digital experience
• Empowers evaluative walkthroughs
• Enhanced understanding

45. Emerging Technologies
Augmented Reality / AR

46. Emerging Technologies
Augmented Reality / AR
• AR overlays and registers interactive digital elements
• Visualizes hidden systems behind finished surfaces
• Improves learning

47. Emerging Technologies
3D Printing

48. Emerging Technologies
3D Printing
• Additive construction
• Increased automation
• Geometry freedom
• Sustainability
• Customizations

49. Individual Assignment 1

50. Thank You