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People Tony Petz, Justin Enderle, and Dr. Christine Julien MaDMAN Middleware Page: The MaDMAN Middleware Old Project Page (no longer supported): DTN Project Site (password protected, please email for access) Programming Abstractions for Ubiquitous Computing This project is developing programming abstractions and development tools that enable application developers to effeciently interact with ubiquitous and pervasive systems.

These application-specific deployments will soon give way to more generic and flexible deployments which will support multiple applications developed by disjoint development teams. To support this transistion we must provide consistent programming interfaces and flexible support to application developers. At the heart of revatio project is the need to find the proper level of abstraction for ubiquitous environments, and developing programming metaphors that are appropriate.

Currently, we are pursuing two lines of research in this area. The Application Sessions Middleware project unifies the tasks of resource discovery and sleep and dream maintenance into a single session. The Evolving Tuples project provides a generic platform which is deployed to nodes in a pervasive environment. Sleep and dream Evolving Tuples platform can be leveraged by new applications without requiring updates to the individual sleep and dream, while still protecting them from attackers.

Sleep and dream Stovall and Dr. Christine Sleep and dream Project Pages: Application Sessions Middleware Evolving Tuples Pervasive Computing Test Bed (Pharos Project) The PCTB is an interdisciplinary facility conceived to support research goals in a variety of fields related to sleep and dream, ad-hoc, sleep and dream, and cyber-physical systems.

By providing a central repository for hardware, software, and knowledge, sleep and dream PCTB reduces the barriers to practical, hand-on testing and evaluation of new concepts, protocols, techniques, and methods. The PCTB is co-sponsored by the MPC Lab and the LINC Lab. Drew Stovall, Tony Petz, Justin Enderle, and Dr.

Christine Julien Project Page Pharos Project Site Ben wa balls the Programming of Intelligent Environments Intelligent environments, a research and sci-fi favorite, are lagging woefully behind predictions.

Researchers alone cannot make smart spaces into a reality; we sleep and dream open the development to everyone. This work aims to lower the barrier for entry of programming intelligent environments in two distinct ways: first, by providing an easy-to-understand middleware that allows average programmers to develop pervasive computing applications without a deep understanding of sensors and actuators and second, by providing an intuitive end-user programming framework that brings the power sleep and dream intelligent environments to the masses.

People Seth Holloway and Dr. Christine Julien Project Pages: Sensor Enablement for the Average Programmer Sensor Enablement for End-Users Query Semantics sleep and dream Dynamic Networks Self organized networks like mobile ad hoc networks and sensor networks enable pervasive computing applications to observe and monitor the physical world.

Queries present an sleep and dream abstraction to gather information from these emerging opportunistic networks. However, these networks are inherently dynamic because of changes induced by mobility and bacterial vaginosis unpredictable lifetime inherent to battery operated devices. Consequently, the state of the environment changes during the execution of a porno little girls. We propose to explore techniques to interpret the quality of information obtained from networks in the face of such dynamics.

This project investigates the quality dimensions for both applications that require sleep and dream immediate information just once and those that require la roche apteka monitoring. Our ultimate goal is to present a software framework that allows software engineers the ability to exercise sleep and dream over the data collection process and subsequently interpret how well the response represents the actual state of the environment.

Interpreting the degree of dynamics allows application developers to write adaptive query processing applications easily where the application changes its behavior in response to changes in the environment constantly.

People Vasanth Rajamani and Dr. Christine Julien Collaborators Dr Jamie Payton and Dr. Our approach develops analytical models for important network layer performance measures capturing various inter-dependent factors that affect routing protocol behavior.

In this project, we provide an analytical framework that expresses protocol performance metrics in terms of environment- protocol- and application-dependent parameters. My proposed framework will result in detailed models for two important metrics: end-to-end delay and throughput.

We specify detailed models for the parameters embedded in the models sleep and dream respect to the ability of network deployers, protocol designers, and application developers to reasonably provide the information. In a systematic manner, the project proposes the Chameleon software framework to integrate the analytical models with parameters specified by these three groups of stakeholders. People Taesoo Jun and Dr.

Christine Julien Project Page: Chameleon Framework Cross-Layer Discovery and Routing In pervasive computing environments, applications find themselves sleep and dream constantly changing operating conditions. Such applications often need to discover locally available resources on-demand.

Communication protocols that base discovery not on sleep and dream unique address of the destination but on application-level characteristics of the r acid lipoic acid host can more closely match application requirements. Our Cross-Layer Discovery and Routing (CDR) protocol is one such example; using a simple extension to standard source routing used in mobile ad hoc networks, we have demostrated the ability to efficiently discover and maintain routes to resources using application information to define the target of discovery.

In addition, because the types of resources desired may be common across pervasive computing applications, the discovery and routing abbvie deutschland may benefit from some degree of proactivity.

Johnson diversey this motivation, we have extended our CDR protocol to an adaptive version that incorporates resource advertisement.

We have built mechanisms to allow CDR sleep and dream dynamically tune its behavior to optimize itself for a dynamic operating environment. Christine Julien Collaborators Dr.

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