AIMS (Access Interactive Mobile Services) The general long-term goal of the project Access Interactive Mobile Services (AIMS) is to target everyday mobile objects; however, our current development efforts target only the mobile phones. The AIMS project offers an innovative mobile application solution to transform your personal mobile phones from service consumers to service hosts. This enable the mobile phones to disseminate their content as services that may include calendars, contacts, gallery, location, and so on.
  Automated In-Car Network • Communicates
based on driver’s profile
• Fault
detection based on sensor data e.g. over heating, tire pressure
• Feature
activates based on context e.g. lights glow when dark, AC/heater starts on
high/low temp
• Driver
controls Sun SPOT through management platform  MEDICARE : Remote Medical Monitoring Application This application presents a use case of Mobile Web Services (MWS) in Health Care Systems based on Wireless Sensor Networks (WSN).    Embedded Mobile Web Services (EMWS) for Sensor Equipped Ultra Low Cost Short Ranged Mobile Terminals
Mobile Web Services are not limited to mobile devices that need user interaction such as mobile phones and PDAs. They can be developed to perform continuously running complex back-end processes in embedded devices having no user inteface. However, such embedded mobile de- vices have serious resource constraints in terms of storage, battery and processing power. Contextaware smart environments have generated significant interest in sensor equipped embedded mobile devices. Still, there is no existing framework / API to develop context-aware MobileWeb Services for cost efficient mobile terminals. This thesis presents a Mobile Web Services middleware for ultra-low cost wireless sensor node called Sun Small Programmable Object Techno-
logy (SunSPOT). In order to deploy the existing middleware over Sun SPOT, it is migrated from Java ME MIDP to IMP profile. Reliable and unre- liable Simple Object Access Protocol (SOAP) bindings to IEEE 802.15.4 are implemented. As a part of thesis, a proof-of-concept application has been developed to demonstrate a health care scenario with sensor nodes. The application uses sensor-oriented Mobile Web Services to fetch real- time data. The concept of role-base service composition is applied to reduce traffic. Finally, middleware performance is evaluated in terms of mem- ory footprint and battery power consumption. The power consumption is further optimized for low cost sensor nodes.
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