The sketched activity considering the current project proposal was founded on the results achieved in the project BelAmI_H (2005-2008). Our research results regarding the theoretical and practical applications were published in several national and international journals, conference proceedings, and book chapters. The activity related to this will be enlisted at the presentation part of the respective project partners. Here we enlist only the results of BelAmI_H, which are related to the project proposal of BelAmI_H 2nd Phase (in brackets the subtask is presented, which will use the respective result):

• We designed and developed a system, which efficiently handle different types of sensor networks, and also possess data collection functions. An easily adaptable, reconfigurable system model was also developed, which can be used for applications with different demands (1.1).
• A system based on the ZigBee chipset of EMBER was developed to collect environmental data (temperature, noise, signaling & actuating), an X.10-based device controlling system with ZigBee was also developed (1.2).
• An RFID-based inventory system was developed, which facilitates zone-level localization services (1.3, 4.4, 4.5).
• We developed an ultrasonic localization system, called Batsy (1.3).
• Temperature and humidity sensor development (1.5).
• Break temperature detector (1.5).
• Battery modeling, detection of battery level and lifetime predictor device (1.5).
• Chip for relative humidity detection (1.5).
• Experimental evaluation of energy draining from environment (1.5).
• Development of ITS applications using inter-vehicle communications (ad hoc tempomat, traffic jam detection, pile-up avoidance). Simulation analysis of applications (2.1, 5.1).
• Design and beta version of an intelligent information flooding communication protocol (2.2).
• Development of a real-time traffic information method using the Floating Car Data concept. Analysis of the traffic information collected by the system (2.3).
• Development of a simulation environment, called RUBeNS (2.4).
• Development of a communication and control board for industrial car control (Hermes) (2.5).
• Research experiments regarding speech recognition and generation in robotic environments (3.1, 3.2)
• Speech generation on the Hermes board (3.3).
• Radio boards for communication (4.1).
• Inter-vehicular communication protocols (4.2).
• Integer linear programming tool for optimizing the information spreading in ITS networks (4.3).
• Defining and patenting a group formation system for RFID tags and readers (4.4).
• Worldwide acknowledged results on model transformation (5.5).