2013
DOI: 10.3390/s130506229
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FTT-MA: A Flexible Time-Triggered Middleware Architecture for Time Sensitive, Resource-Aware AmI Systems

Abstract: There is an increasing number of Ambient Intelligence (AmI) systems that are time-sensitive and resource-aware. From healthcare to building and even home/office automation, it is now common to find systems combining interactive and sensing multimedia traffic with relatively simple sensors and actuators (door locks, presence detectors, RFIDs, HVAC, information panels, etc.). Many of these are today known as Cyber-Physical Systems (CPS). Quite frequently, these systems must be capable of (1) prioritizing differe… Show more

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Cited by 8 publications
(5 citation statements)
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References 38 publications
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“…The use of a static plan is a simple approach, but it may be adequate for a great number of industrial applications, especially in monitoring applications. Regardless, this approach could be extended to introduce more flexibility by introducing similar techniques to the flexible time triggered (FTT) paradigm, which has been introduced in wired networks such as CAN [54] or Ethernet [55] and at a logical level over TCP/IP [56].…”
Section: Applicability To Different Scenariosmentioning
confidence: 99%
“…The use of a static plan is a simple approach, but it may be adequate for a great number of industrial applications, especially in monitoring applications. Regardless, this approach could be extended to introduce more flexibility by introducing similar techniques to the flexible time triggered (FTT) paradigm, which has been introduced in wired networks such as CAN [54] or Ethernet [55] and at a logical level over TCP/IP [56].…”
Section: Applicability To Different Scenariosmentioning
confidence: 99%
“…Some works provide programming-based solutions [ 60 , 61 , 62 ], so application definition is subject to application availability. On the contrary, others propose recovery approaches transparent to application definition [ 43 , 54 , 63 , 64 ]. In the case of stateful components, many works have focused on determining the best instant to perform the state transfer [ 65 , 66 , 67 ], which might involve blocking the application execution.…”
Section: Related Workmentioning
confidence: 99%
“…Given the similarities between WSNs and the traditional distributed systems, it would seem that the already established middleware solutions such as CORBA, ICE, SOGI, OMG and web services could be used; however, they have been found to be inadequate in meeting IoT and WSNs' requirements [14] Consequently, tens of middleware solutions specific to WSNs have been developed; these can be categorized into three: (1) in-network middleware that is uploaded on the nodes; (2) server-side middleware that runs on a server; and (3) hybrid that combines both 1 and 2 [1]. Another categorization that is based on programming models that the architecture uses, produces two broad classes: programming support and programming abstractions [9].…”
Section: B Classification Of Middleware Approaches For Wsnsmentioning
confidence: 99%
“…This is analogous to the four components of an early warning system [3]; except that the last two components are merged into one. To add on to the complexity of AmI, CPS must be able to synchronize actions of several distributed devices and resource management [14]. Given their need for tighter timing, safety, security and robustness, asset tracking and monitoring systems (the focus of this research) qualify to be classified under AmI.…”
Section: Ambient Intelligent and Cyber-physical Systemsmentioning
confidence: 99%