Common use of Smart Clause in Contracts

Smart. There are certain specific and very important, for numerous application domains, features of WSNs such as high-security levels, low power consumption, video-capabilities, auto- configuration and self-organization, that are not efficiently addressed by today’s offerings; SMART aims at providing an infrastructure that will support all those features efficiently and inexpensively. This innovative infrastructure will be based on both an off-the-shelf reconfigurable device and on a specially designed and implemented Reconfigurable Application-Specific Instruction-set Processor (RASIP). Even though, the reconfigurable hardware resources are often considered, for certain processing tasks, more power hungry than the ultra-low-power microcontrollers, it has been proved that they allow for extremely more performant and power-efficient processing when implementing encryption/decryption/authentication algorithms as well as data/video/image compression tasks. The SMART system will also take advantage of the partial real-time reconfiguration feature of the reconfigurable devices and will be able to alter their processing tasks according to the environment the sensor network operates in. ▇▇▇▇▇▇, thanks also to the experience of HAI, who is member of the SMART consortium, will overcome the idea of this project by addressing single SPD basic functionalities instead of producing ex-novo a secure node. This will improve the state-of-the-art giving flexibility, in this case, at node level, allowing the same performance in different application scenarios. Also in FP7 research, particular effort has been put in Security topics, both with general and specific calls1; we have identified some potential starting point that SHIELD will improve with its outcome and approach.

Smart. There are certain specific and very important, for numerous application domains, features of WSNs such as high-security levels, low power consumption, video-capabilities, auto- configuration and self-organization, that are not efficiently addressed by today’s offerings; SMART aims at providing an infrastructure that will support all those features efficiently and inexpensively. This innovative infrastructure will be based on both an off-the-shelf reconfigurable device and on a specially designed and implemented Reconfigurable Application-Specific Instruction-set Processor (RASIP). Even though, the reconfigurable hardware resources are often considered, for certain processing tasks, more power hungry than the ultra-low-power microcontrollers, it has been proved that they allow for extremely more performant and power-efficient processing when implementing encryption/decryption/authentication algorithms as well as data/video/image compression tasks. The SMART system will also take advantage of the partial real-time reconfiguration feature of the reconfigurable devices and will be able to alter their processing tasks according to the environment the sensor network operates in. ▇▇▇▇▇▇SHIELD, thanks also to the experience of HAI, who is member of the SMART consortium, will overcome the idea of this project by addressing single SPD basic functionalities instead of producing ex-novo a secure node. This will improve the state-of-the-art giving flexibility, in this case, at node level, allowing the same performance in different application scenarios. Also in FP7 research, particular effort has been put in Security topics, both with general and specific calls1; we have identified some potential starting point that SHIELD will improve with its outcome and approach.

Smart. There are certain specific and very important, for numerous application domains, features of WSNs such as high-security levels, low power consumption, video-capabilities, auto- configuration and self-organization, that are not efficiently addressed by today’s offerings; SMART aims at providing an infrastructure that will support all those features efficiently and inexpensively. This innovative infrastructure will be based on both an off-the-shelf reconfigurable device and on a specially designed and implemented Reconfigurable Application-Specific Instruction-set Processor (RASIP). Even though, the reconfigurable hardware resources are often considered, for certain processing tasks, more power hungry than the ultra-low-power microcontrollers, it has been proved that they allow for extremely more performant and power-efficient processing when implementing encryption/decryption/authentication algorithms as well as data/video/image compression tasks. The SMART system will also take advantage of the partial real-time reconfiguration feature of the reconfigurable devices and will be able to alter their processing tasks according to the environment the sensor network operates in. ▇▇▇▇▇▇SHIELD, thanks also to the experience of HAI, who is member of the SMART consortium, will overcome the idea of this project by addressing single SPD basic functionalities instead of producing ex-novo a secure node. This will improve the state-of-the-art giving flexibility, in this case, at node level, allowing the same performance in different application scenarios. Also in FP7 research, particular effort has been put in Security topics, both with general and specific calls1calls45; we have identified some potential starting point that SHIELD will improve with its outcome and approach.