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2. My Background. Started as New faculty at AU in Fall'02Previously at Carnegie Mellon UniversityPhD and MS in IS from Carnegie MellonAlso, BS Mech Engineering
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1. IntroductionProf. J. Alberto Espinosa
Business Analysis ITEC-630 Fall 2009
2. 2
3. 3 Class Web Site Current versions of syllabus, class schedule, lecture notes, and homework assignments will be posted on the Blackboard class web site.
Course Syllabus also available at:http://auapps.american.edu/~alberto/itec630/syllabus.html
Class Schedule also available at:http://auapps.american.edu/~alberto/itec630/schedule.html
All homework assignments, lecture slides, and other class materials will be available via the Class Schedule link above, and also via Blackboard
Class announcements and grades will be available via Blackboard only
4. 4 “The set of tasks, knowledge, and techniques required to identify business needs and determine solutions to business problems. Solutions often include a systems development component, but may also consist of process improvement or organizational change.”
Source: International Institute of Business Analysis (iiBA)
5. 5
6. 6 Information Technology (IT) and Business
7. 7 =
IT Infrastructure: the hardware, system software, telecommunications/networks and data storage supporting all business applications
+
Business Applications: software used to manage particular business functions or processes (e.g., accounting, supply chain management)
8. 8 An arrangement of people, business functions, processes, and IT which interact to collect, store and process, and store data to provide information to support business activities and decisions
It is much more than just IT!!
9. 9
10. 10 3 bedrooms, dinning room, living room, kitchen, laundry room, 2-1/2 bathrooms
Back patio, access from the kitchen
2-floors + basement
2-car attached garage w/extra room on top & driveway
Landscaped front yard & small trees in the backyard
2 windows, one on each side of front door
2 windows on 2nd floor above with 1st floor windows
2 small windows above garage on extra room
11. 11
12. 12
13. 13
14. 14 SYSTEM DEVELOPMENT All the activities that go into
producing and IS solution:
0. Vision
Analysis
Design
Implementation
Testing
Conversion
Production & Maintenance
Degree of ceremony or formality?
Depends on size, risk,
15. 15 A communication exercise between system users and system developers
An analysis of the “problems” to be solved by an information system
Developing an understanding of “the work” that the system needs to perform
Developing an understanding of “what” the system needs to do
Implication:
Understanding the business problem is critical before offering solutions
16. 16 An analysis of the “solutions” to the problems identified during systems analysis
Developing and understanding of “how” the system needs to do what was identified during systems analysis, per the “requirements specification”
Implication:
Can’t design a solution until you’ve analyzed the problem
17. 17 Selection, acquisition, production and assembly/integration of the necessary components of the system
For systems that require software development, translating the conceptual design into specific software instructions to accomplish the work.
Implications:
Can’t purchase off-the-shelf software until you’ve until you’ve analyzed the requirements
Can’t build an application until you’ve designed
18. 18 4. Testing
Test Types:
UNIT TESTING: Ensure that each part of the system work well individually
SYSTEM TESTING: Ensure that all the parts work well together
REGRESSION TESTING: Ensure that new software work well with the existing software
ACCEPTANCE TESTING: By users and/or clients
BLACK BOX TESTING: Testing if the system does what is supposed to, per requirements specifications, without inspecting the internals of the system
CLEAR BOX TESTING: Inspecting and testing the internals of the system (opening the black box)
Implication:
Analysis artifacts (e.g., use cases) can be used for testing (e.g., acceptance and black box testing with “test cases”)
19. 19 5. Conversion (i.e., Installation) Important Conversion Issues:
CONVERSION PLAN: Schedule for conversion
DOCUMENTATION: Description of how system works
USER TRAINING
Conversion Methods:
PARALLEL: Old & new run simultaneously
DIRECT CUTOVER: Risky conversion to new system
PILOT: Introduce first in one area, domain, location
PHASED: Implement the system in stages
Implication:
Analysis artifacts (e.g., use cases) can be used to develop user manuals and other system documentation
20. 20 6. Production & Maintenance PRODUCTION: Review by users & operators User support
MAINTENANCE: Upgrades Bug fixes
Implication:
Requirements are not static
21. 21 EFFORT DISTRIBUTION
22. 22 Systems Development Models
23. 23 System Development Life Cycle (SDLC)or the “Waterfall” Model (Linear Sequential)
24. 24 SDLC (“Waterfall”) Model Pros & Cons
25. 25 The Incremental Model(Linear Sequential)
26. 26 Incremental Model Pros & Cons
27. 27 The Spiral Model (Bohem)(Evolutionary)
28. 28 The Spiral Model
29. 29 Object-Oriented (OO) Analysis
30. 30 Standards
31. 31 Unified Modeling Language (UML)
32. 32 Important UML Models/Artifacts
33. 33 The Unified [System Development] Process (UP)
34. 34 Key Aspects of the UP
35. 35 Iterations, Disciplines & Workflows in the UP
36. 36 Development CaseFor this Course
37. 37 Important Things to Keep in Mind
38. 38
39. 39
40. 40 The New Way:Focus on Business Processes A process: Manner in which work is organized and coordinated to produce a product or service
Some business processes take place within a function
Some others cut across multiple business functions
Concrete work flows of material, information, and knowledge
Unique ways to coordinate work, information, and knowledge
Example: processing a customer order
41. 41 A Process May Cut Across Multiple Departments
42. 42
43. p.43 EA Process (Armour et al 1999, TOGAF): -Can’t always architect from the ground up
A very dynamic process
-Change is difficult-Can’t always architect from the ground up
A very dynamic process
-Change is difficult
44. 44
45. 45 “The set of tasks, knowledge, and techniques required to identify business needs and determine solutions to business problems. Solutions often include a systems development component, but may also consist of process improvement or organizational change.”
Source: International Institute of Business Analysis (iiBA)
46. 46 Business analysts used to be called “systems analysts”
Business analyst is the preferred title today in recognition of the fact that business strategies and system implementations need to be tightly aligned, so the analyst needs to thoroughly understand business goals, functions and processes, more than systems per se (CIO Magazine)
A business analyst works as a liaison among stakeholders in order to elicit, analyze, communicate and validate requirements for changes to business processes, policies and information systems (iiBA)
The business analyst understands business problems and opportunities in the context of the requirements and recommends solutions that enable the organization to achieve its goals (iiBA)
47. 47 Ability to develop a thorough understanding of:
the requirements to solve a business problem, often with a system implementation
how the proposed system or solution will interoperate or integrate with the existing systems and technology in which the new system will operate.
how the proposed system or solution fits the existing enterprise architecture and business strategies
the business problem from multiple perspectives: business, user, functional, quality of service, implementation, etc.
48. 48 See iiBA: http://download.theiiba.org/default.asp?fileid=26&categoryid=3
Enterprise analysis
Requirements planning and management
Requirements elicitation
Requirements analysis
Communication and documentation
Solution assessment and validation
49. 49 Enterprise architecture:
“The explicit description and documentation of the current and desired relationships among business and management processes and information technology.” – U.S. Office of Management and Budget, Circular A-130
The blueprint for creating enterprise-wide systems in alignment with business needs
It involves preparing all diagram, models and descriptions of: all business processes, functions, information and technology infrastructure
It often involves analyzing the current architecture, conducting gap analysis and developing a target architecture along with a transition plan
The business analyst needs to understand the enterprise strategies, which provides “the context” in which enterprise analysis is conducted
In modern, complex, dynamic and fast-paced business environments, the enterprise strategy and information technology are tightly aligned, but the strategy evolves rapidly, presenting substantial challenges for business analysts.
In large complex organizations, senior business analysts are key participants in the strategic planning process.
50. 50 It involves:
Identifying team roles: project manager, business analysts, developers, quality assurance analysts, trainers, application architects, data modeler, database analyst, infrastructure analyst, information architect, subject matter (functional) experts, etc.
Identifying stakeholders (who will provide requirements information): executive sponsor, solution owner (client), end users, functional managers, investors, etc.
Distribute responsibilities amongst business analysts and other team members and define coordination, team communication and knowledge sharing mechanisms and processes
Define risk monitoring and management approach for each identified risk
Define the requirements and system development method (e.g., traditional, object oriented, unified modeling language—UML, etc.)
Define the requirements and system development process (e.g., system development life cycle, iterative, unified process—UP)
Manage requirements change and scope: requirements creep is a big problem
Define and collect project metrics and reporting mechanisms
Other project planning and project management activities
51. 51 A “key” BA task – it provides the foundation for solutions to business needs – it helps develop a thorough understanding of the business process that will be automated and the essential needs of the system.
It involves:
Eliciting the these essential needs from stakeholders – dependent on the knowledge and willingness of stakeholders to share information
“Trawl” for knowledge: business processes, baseline system, target system
Methods: interviews, surveys, focus groups, requirements workshops, observations, prototyping, written documents, etc.
Analyze all interfaces – human and external systems
Document (i.e., record) all requirements identified (and the source) – requirements notes, cards, etc.
Establish priorities and verification (measurement) parameters
Beware of “scope creep”
52. 52 “The objective is to define and describe the characteristics of an acceptable solution to a business problem, so that the project team has a clear understanding of how to design and implement it” (iiBA)
It involves:
Developing analysis models and artifacts
Can be textual or diagrams – beware of over-diagramming
And “transitional artifacts” that connect the multiple models – e.g. CRUD and other matrices
Methods: business process analysis, object-oriented (OO) analysis, structured analysis
Requirements: functional, non-functional, project, assumptions, constraints, etc.
53. 53 The objective is to develop an accurate understanding of the business problem and clearly articulate the solution.
It involves:
Communication skills are critical – two ways: not only clearly articulating things verbally and in writing, but also listening effectively
Selecting the appropriate models, artifacts and other requirements documents formats.
Describing models and text artifacts clearly, accurately and concisely
Key deliverable: “requirements specification” representing the BA’s “demonstrated understanding” of the business and processes that need to be handled by the system and its necessary capabilities.
These specs will serve as the foundation for: effort estimation, budgeting, resource allocation, contractual terms, and implementation planning, etc.
Preparing effective presentations for clients and stakeholders.
54. 54 Two key aspects: (1) evaluation if the proposed solution meets business needs (and the architecture analysis) and (2) if the solution was implemented correctly (per requirements)
Evaluate proposed solution, it involves:
Requirements reviews to evaluate if they are accurate, complete, clear, non-redundant, consistent (with architecture and business needs), feasible, correctly prioritized, etc.
Obtaining signoff from clients and stakeholders – helps buy in and reduce “feature churn”
Evaluate correct implementation, it involves:
Working with Quality Assurance teams
Mapping analysis artifacts to design artifacts
Mapping implemented system features to requirements artifacts
Black box testing of the system implemented – e.g., using test cases
Evaluating non-functional requirements and technologies used
Evaluating usability and interfaces (human and system)
55. 55 Course Content
Business analysis overview (done)
Requirements analysis
Introduction to business process analysis
Use case analysis – functional requirements
Data/information analysis
Project management issues