envisioned technological architecture of inegi towards an enterprise architecture meeting on the...
TRANSCRIPT
Envisioned Technological Architecture of INEGI
Towards an Enterprise Architecture
Meeting on the Management of Statistical Information Systems (MSIS 2013)
Paris, France, and Bangkok, Thailand, 23-25 April 2013
Context
• Main functions of INEGI:
– Coordination of a National Statistical and Geographical Information System
– Production of statistical and geographical information for official use
Information Production Fields
Socio-Demography Economy Government Justice
National Accounts Price Indexes Environment Geography
Organizational Structure vs GSBPM Business Processes
COORDINATION
PRODUCTION DISSEMINATION
Information Structures
METADATAMICRODATA
HIGHLY DESAGGREGATED
STARS
CUBESInformation from Internal Projects
.xml, .xls, .txt, .csv, .dbf, databases (row data) I
NTEGRATION
DATA WAREHOUSEExternal Information from the SNIEG
.xml, .xls, .txt, .csv, .pdf, .dbf, Databases
SERVICESProduction databases
.xml, .xls, .txt, .csv, .dbf, (other files/products)
Geographical Databases,Special Services,Information BanksHistorical Records
WEB
Paper
Internet
Mobile devices
Process Management
FILE INTEGRATION
Collection and Integration of Information
QUESTIONNAIRES GENERATOR
SYSTEMS AND TOOLSPaper
Internet
Mobile devices
Paper
Internet
Mobile devices
APP
LICA
TIO
NS
COM
PUTI
NG
DATA
Technological Platform
ALTERNATE SITEALTERNATE SITE
• Clustering• Virtualization•Storage
• Grouping• Redundancy
• Replication•Safeguarding
• Balancing• Edge Security• Secure Access
VoiceDataVideo
Business Requirements
• Ease Coordination of National Statistical and Geographical Information System
• Improve efficiency of the internal processes• Delivery of Information (opportunity, localization, visualization
interpretation)• Comparability, best practices• Communication and participation from the society• Open data• Internal skills growing• Use of big data• Historical Records
Incorporation of New Technologies
Cloud Compu
ting
Mobile Technol
ogies
Virtualization
Augmented
Reality
Social Netwo
rks
Reuse, Share,
Evolution
Design of Modules for an Integrated Architecture
Business ProcessesSystems as Building Blocks
Characterization of Existent Systems3.1 Build data
collection instrument
4.1 Select sample
4.2 Set up collection
4.3 Run collection
4.4 Finalize collection
5.1 Integrate data
Questionnaires Generator
Control of Field Operations System
Questionnaires Generator
Control of Field Operations System
“Superbrick”
Composition of a Building Block
Functionality
Data ConnectorData ConnectorData Connector
Input InterfaceInput InterfaceInput Interface Output InterfaceOutput InterfaceOutput Interface
Information Layer
Technology Layer
Benefits of the Approach
• Easy to adapt to new technologies• Ease adoption of various input and output technologies in
the same system (during the system’s lifetime)• Independence of specific vendor solutions• Scalability and flexibility
ENVIRONMENT
Internal logic• Application of Viable Systems
Theory (Stafford Beer)• Classify the logic of each piece
of software in three different kinds:– Operations: Functionalities,
production– Control: Flow control (1 or many,
but one coordinator)– Direction: Provide information (p.
configuration files, interfaces)
Characteristics of Beer’s model
• Recursive• Clear separation of elements• Improves flexibility and addaptability without loosing
governability • Better maintainability• Compatible with the logic of architectural and design
patterns
Conclusions
• Technological Architecture is a must to be proactive in a fast paced IT environment
• Need to be applied in an incremental and contextualized way• Standardization facilitates collaboration and solutions sharing• Efforts of HLG to have an standardized architecture are
valuable • More refinement is needed
Questions and [email protected]
Knowing Mexico
01 800 111 46 34www.inegi.org.mx
@inegi_informa INEGI Informa
THANK YOU FOR YOUR TIME