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Enterprise modernization involves changes to all dimensions of an
organization. It affects:
• Organizational structure•Policies, processes, and procedures • Business and technical architectures•Investment management practices • Governance•Culture • Technical systems
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BPS: Business Function
Function systems=
ISLogical systems=S
WPhysical
systems=HW
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Building an Enterprise Life Cycle Methodology
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Using Interoperable Process Models in a Multi-agency Planning Toolkit for Enterprise and C4ISR Architecture Analysis
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Modernizing Enterprise Systems Management
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Modernizing Enterprise Systems Management
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Security for Enterprise Engineering: Weathering Storms
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Security for Enterprise Engineering: Weathering Storms
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Figure: C4ISR Architecture Framework - Three Views of an Architecture
C4ISR stands for Command, Control, Computers, Communications (C4), Intelligence,
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Enterprise Architecture Planning (EAP)Steven Spewak's Enterprise Architecture Planning (EAP) is a set of methods for planning the development of Information,
Applications, and Technology Architectures (the recommended approach being to develop them in that order), and for aligning the three types of architecture with respect to each other. The goal is to ensure that such architectures form the blueprints for sound, implementable systems that solve real business problems.
The overall EAP methodology involves the following "steps":Planning Initiation: defining scope, objectives, roles, and responsibilities and deciding which methodology to use, who
should be involved, and what toolset to use. This leads to producing a workplan for the enterprise architecture planning activity and securing management commitment to go through all of the following phases.
Principles: developing the core principles to support the effective governance of information and technology. These principles form the basis for making architectural decisions, accepting the results, and managing the migration. They are based on industry best practice and the enterprise's purpose, vision, and values and are implemented through policies, procedures, and standards.
Business Modeling: modeling the current business activities and the information used, and identifying business process improvement opportunities.
Current Systems & Technology: defining what is in place today for application systems and supporting technology platforms. This is a summary-level inventory of application systems, data, and technology platforms to provide a baseline for long-range migration plans.
Data Architecture: developing the Data Architecture, including defining the major business activities and data objects needed to support the business.
Applications Architecture: defining the major kinds of applications needed to manage the data and support the business functions.
Technology Architecture: defining the platforms needed to provide a technological infrastructure for the applications that manage the data and support the business functions.
Implementation/Migration Plans: defining the sequence for implementing applications, a schedule for implementation, a cost/benefit analysis, and a clear step-by-step path for migration. Executive-level recommendations are made for implementing the plan, and a plan is developed for the transition period after following the enterprise architecture planning activity.
Planning Conclusion: final report and presentation of the results to management. The EAP methodology thus positions the four types of "architecture" in the sequence: Business Architecture, Data
Architecture, Applications Architecture, and Technology Architecture as the recommended sequence.
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Figure 1. Technology advances provides value to business but increases complexity in an IT portfolio
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Proliferation means confusion in selection and higher costs of integration and maintenance
•Standardization of Intelligence Standardization of Intelligence Physical Education Innovation to Physical Education Innovation to World Class 2011–IPEIG World Class 2011–IPEIG Vision2011Vision2011
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การจดทำาหรอ พฒนาMIS เปนกระบวนการ เกยวพนหลายฝาย
เวลา
80%ใช
Policy
เวลา10%ใชบรหาร/พฒนา
เวลา10%ใช
ประเมนผล บำารงรกษา DATA CENTER
เวลา
10%ใช
Policy
เวลา50%ใชบรหาร/พฒนา
เวลา40%ใช
ประเมนผล บำารงรกษา DATA CENTER
เวลา
10%ใช
Policy
เวลา20%ใชบรหาร/พฒนา
เวลา70%ใช
ประเมนผล บำารงรกษา DATA CENTER
CEO & CIO & USERS &
Stakeholders
Activities
CIO & SA & Programmer & USERS & Stakeholder
sActivities
Network & DBA & SE & Programmer
& OPERATOR &USERS &
Stakeholders
Activities
PHASE ISystem Analysis
and Design
StrategicPlanning
D: ScopeD: Scope= T + = T + ResourcesResources
PHASE IISoftware
Engineering Tactical and
Control, Management
/Development
D : ScopeD : ScopePHASE IIIBUG and
MaintenanceL & G
Data Center
1. Life Cycle Development1. Life Cycle Developmentของ ของ Information ProcessorsInformation Processors2. TIME Life Cycle
"Logistics is that part of the supply chain process that plans, implements, and controls the efficient, effective flow and storage of goods, services, and related information from the point of origin to the point of consumption in order to meet customers' requirements." Council of Logistics Management
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Supply Chain (Up streams) to CRM/DCM (Down Streams) ??
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กำาหนด กรอบ องคความร สารสนเทศการบรหารการพลศกษา International Charter of Physical Education and Sport
ภายใต Good Governance, Globalization ผาน Web: IPE.AC.TH+Web: IPE.AC.TH+วทยาเขต วทยาเขต ????