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Peking Spatial Applications Integrating Infrastructure

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Peking Spatial Applications Integrating Infrastructure A Research for Spatiality-oriented Web Service Application Lab of Spatial Information System_at_PKU – PowerPoint PPT presentation

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Title: Peking Spatial Applications Integrating Infrastructure


1
Peking Spatial Applications Integrating
Infrastructure A Research for
Spatiality-oriented Web Service
Application Lab of Spatial Information
System_at_PKU http//gis.pku.edu.cn lyw_at_pku.edu.cn
2
Syllabus
  • Introduction of Spatial Application
  • Design Intention of Peking Spatial Applications
    Integrating Infrastructure(PAI)
  • Web Service-Based Distributed Spatial Information
    Disposition Architecture
  • QoS Strategies in Spatial Information Integration
    Disposition
  • An Example for PAI-Organized Applications

3
Introduction of Spatial Application
  • Characteristic of Spatial Information and
    Manipulation Platform
  • Spatial information
  • Massive
  • Long time of data sedimentation
  • Multiple spatial data models
  • Adhere to certain GIS platform to be accessible
  • Spatial information manipulation platform
  • Data stored in heterogeneous GIS(dominated as
    MapInfo, ArcInfo) platform or inner spatial
    module presented by certain manufacturers(Oracle
    Spatial by Oracle)
  • Relevant services, product series based on
    platform self-defined organization
  • Single accessible data portal

4
Introduction of Spatial Application
  • Characteristic of Conventional Spatiality-oriented
    Application
  • Direct development of application based on
    platform-critical architecture
  • Spatial information visualization, query, and
    edition at the front end based on homogeneous
    data storage at the back end
  • Whenever inter-platform integration is needed,
    the writing of application-related adapter
    software for each participating platform is used

5
Introduction of Spatial Application
  • Challenges imposed by nowadays spatial data
    integration
  • Participated by processes running on
    heterogeneous platforms from multiple
    organizations
  • Integrating existed spatial application systems
  • Implement of dynamic integration accounting for
    on-time subsystem scalability
  • Refining of existing services to present QoS
    attributes during integrated service formation
  • Semantic level interoperation to obtain
    automatic service communication and assemblage

6
Introduction of Spatial Application
  • Which we are confronted lies in that
  • Prevalent large-scaled spatial
    applications(Digital City, E-Government) call for
    a more flexible, dynamical, semantic integration
    among existing legacy data, system, platform and
    framework.

7
Introduction of Spatial Application
  • Work of OGC in Improvement of Spatial
    Interoperability
  • A common architectural framework for web-based
    geospatial services
  • Concentrating on definition of behavior of
    functional components common to all such services
    and extensible for specific services and service
    types
  • Specification for distributed computing
    interaction, distributed computing workflow
  • Our Emphasis Above-base integration of Web
    Services to obtain dynamic interoperation

8
Syllabus
  • Introduction of Spatial Application
  • Design Intention of Peking Spatial Applications
    Integrating Infrastructure(PAI)
  • Web Service-Based Distributed Spatial Information
    Disposition Architecture
  • QoS Strategies in Spatial Information Integration
    Disposition
  • An Example for PAI-Organized Applications

9
Design Intention of PAI
  • The main goal of PAI infrastructure is to
    provide open second-time developing platform of
    spatial information application integration
  • Provide united sharing mechanism and support
    technologies to access and acquire spatial
    information
  • Solve distributing and heterogeneity of spatial
    applications(such as heterogeneity of GIS
    platforms, systems, expression and semantic
    collision)
  • Provide interoperation platform for isolated
    spatial applications

10
Design Intention of PAI
  • Reasons for the construction of PAI based on Web
    Service oriented distributed framework
  • Web Service concentrates on fast conformity and
    deployment of legacy systems, which facilitates
    the integration of existing spatial applications
  • Web service can separate system implementation
    and function interfaces by function publishing as
    services, which permits flexible function
    replacement in implementation aspect
  • Security of sensible data and relevant services
    inside some industries are well protected because
    of the separation between interfaces and
    implementations

11
Syllabus
  • Introduction of Spatial Application
  • Design Intention of Peking Spatial Applications
    Integrating Infrastructure(PAI)
  • Web Service-Based Distributed Spatial Information
    Disposition Architecture
  • QoS Strategies in Spatial Information Integration
    Disposition
  • An Example for PAI-Organized Applications

12
Web Service-Based Distributed Spatial Information
disposition Architecture
13
Syllabus
  • Introduction of Spatial Application
  • Design Intention of Peking Spatial Applications
    Integrating Infrastructure(PAI)
  • Web Service-Based Distributed Spatial Information
    Disposition Architecture
  • QoS Strategies in Spatial Information Integration
    Disposition
  • An Example for PAI-Organized Applications

14
QoS Strategies in Spatial Information Integration
Disposition
  • Problems deserved consideration in current
    integration
  • Massive spatial information presented in GML
    format in PAI to ease interaction, while GML is
    pain-text format, which leads to deficiency in
    transmission
  • Frequent map retrieval which calls for data
    caches to be maintained both in Adapter Service
    or in Integrating Coordinator(IC) Layer
  • Differentiated Services of map to the clients
    which have different network situations and
    application requirements

15
QoS Strategies in Spatial Information Integration
Disposition
  • Current QoS Strategies in PAI
  • GML data compression
  • During data transformation client-end
    transmission
  • Compression editions maintained in caches of IC
    Layer
  • Implementation of cache mechanism flexible to
    multiple spatial data granularities
  • Caches by Adapter Service, IC Layer Web
    browsers
  • Elaborate selection of content-equivalent data
    providers
  • Non-function facets, history records fatal
    parameters of Web services
  • Other QoS-related Differentiated Services
  • Vector map clipping, On-line map generation

16
QoS Strategies in Spatial Information Integration
Disposition
A typical application aided by QoS strategy based
on PAI architecture
17
QoS Strategies in Spatial Information Integration
Disposition
  • Typical Workflows

Sample API in PAI Toolkits Invoked Web Service Workflow
retrieveMap (MapName) MDS(for layer info adapter service Info) ?Adapter Service(for corresponding GML data of certain layer)
retrieveMapasJPEG (MapName) QoS Consultation Service(for Cache Info) ? (Uncached) MDS ? Adapter Service (Cached) ? Spatial Analysis Service(for on-line JPEG transformation)
18
Syllabus
  • Introduction of Spatial Application
  • Design Intention of Peking Spatial Applications
    Integrating Infrastructure(PAI)
  • Web Service-Based Distributed Spatial Information
    Disposition Architecture
  • QoS Strategies in Spatial Information Integration
    Disposition
  • An Example for PAI-Organized Applications

19
Examples for PAI-Organized Applications
  • We have implemented the LBS service based on PAI
    framework
  • Designed for both mobile terminal and PC
  • Provides some location-based services
  • finding the nearest service facilities (for
    example banks)
  • getting the nearest services facilities
  • finding the position of oneself or ones friends
  • getting the relevant information about appointed
    position

20
Examples for PAI-Organized Applications
21
An Example for PAI-Organized Applications
Components of Layers in LBS
22
An Example for PAI-Organized Applications
23
Another Work in Our Lab
A GML-bases lightweight WebGIS system PKGML
http//map.pku.edu.cn
24
Thank You!
Lab of Spatial Information System_at_PKU http//gis.p
ku.edu.cn lyw_at_pku.edu.cn
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