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Run-Time Support for Adaptive Communication Services

MetaSockets:. Run-Time Support for Adaptive Communication Services. By: SeyedMasoud Sadjadi Advisor: Dr. Philip K. McKinley Computer Science and Engineering Michigan State University.

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Run-Time Support for Adaptive Communication Services

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  1. MetaSockets: Run-Time Support for Adaptive Communication Services By: SeyedMasoud Sadjadi Advisor: Dr. Philip K. McKinley Computer Science and Engineering Michigan State University This work was supported in part by the U.S. Office of Naval Research under Grant No. N00014-01-1-0744, and in part by National Science Foundation grants CDA-9617310, NCR-9706285, CCR-9912407, EIA-0000433, and EIA-0130724.

  2. Motivation: • Wireless networks are improving rapidly. • Mobile computers are gaining more popularity. • Lots of Software is being developed for this new infrastructure. • Problem? • Dynamic changes in wireless networks. • Heterogeneity of mobile devices. • Standard solution: • Developing adaptive application. • Problems with adaptive software? • Adaptive code is scattered all over the application. • Development, deployment, and maintenance are difficult. • Our solution: • Using Adaptive Java (developed by E. Kasten) to develop adaptive applications.

  3. Case Study: • Audio Multicasting Application (AMA) • A traditional real-time distributed application that multicasts a live audio stream over a wired network. • Motivation: • Using AMA over a wireless network. • Problem? • Wireless network dynamically changes. • Standard solution: • Writing an adaptive AMA that uses FEC. • Problem with adaptive AMA? • Adaptive code is scattered all over the application. • Development, deployment, and maintenance are difficult. • Our solution: • Using Adaptive Java to develop a “metamorphic” socket (or metasocket) that makes AMA adaptive. • Adaptive code is not tangled to the application code.

  4. Audio Multicating Application over Wireless

  5. Error Control in Wireless Networks Standard Solution: Adaptive AMA over Wireless using FEC filter X X X X X X X X Wireless Network Wireless Network

  6. Problem with Standard Solution: Microphone Program Java Virtual Machine Adaptive Code (the cross-cutting concern) is scattered all over the application code Java MulticastSocket Our Solution in a Nutshell Microphone Program Java Virtual Machine Adaptive Code is factorized in one component to better support the development of evolutionary software MetaSocket

  7. Our Solution: We decided to factorize all of the adaptive code needed to adapt AMA to the dynamic changes of wireless networks and put them in a “metamorphic” component named MetaMulticastSocket (MetaSocket in brief). MetaSocket “absorb”s and “metafy”s the original Java MulticastSocket.You can follow the steps for building this component in Adaptive Java in the next slides. Microphone Program Java MulticastSocket Java Virtual Machine

  8. Developing MetaSocket: First we extended the original Java MulticastSocket to support a filter pipeline. This way we could add, remove, or modify different filters. In this study we just used FEC Filters, but it can work with other filters.

  9. Developing MetaSocket (cont.): Then we “absorb”ed MulticastSocketSender using “absorb” construct in Adaptive Java to create a component from this Java class. We defined all the invocations that this component support to provide service to other components.

  10. Developing MetaSocket (cont.): In this step we “metafy”ed this new component, MulticastSocket- SenderComponent using “metafy” construct in Adaptive Java and defined “refraction”s and “transmutation”s. Refraction methods can only read the status of a component. Transmutation methods, in contrast, can only write to the component.

  11. Developing MetaSocket (cont.): Now that MetaSocket is developed, we need a component that knows about our specific application (AMA) and customizes MetaSockets dynamically. We call this component a “Decision Maker”. A decision maker gets the state of other components using their refraction methods and adapt them using their transmutation methods. AudioRecorder Decision Maker Java Virtual Machine

  12. Microphone Application This is how the whole Microphone application works.

  13. MetaSocket Evaluation FEC inserted FEC removed

  14. Conclusion: • Developing MetaSocket in Adaptive Java demonstrated that we can write adaptive application so that the adaptive code is separated from the application code. • Developing, deploying, and maintaining such applications is much easier. • Future Work: • MetaSocket is just one application written in Adaptive Java. Further investigation on other adaptive applications showed that Adaptive Java should be extended. • Some of the design decision made while developing Adaptive Java makes its use limited.

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