35 resultados para TinyOs
Resumo:
El present treball està basat en el desenvolupament d¿un sistema que permeti fer una demostració pràctica i útil amb els materials que l¿àrea de sistemes encastats posa a la nostra disposició. De forma resumida es tracta de motes/nodes amb possibilitat de comunicació inhalàmbrica entre ells i un sistema operatiu TinyOS programable amb el llenguatge nesC.
Resumo:
El projecte tracta de la realització d'una centraleta d'alarmes d'incendis basat en sistemes encastats amb un sistema operatiu TinyOs i programació amb NesC.
Resumo:
Prototipo de un sistema de automatización de apertura y cierre de una persiana motorizada que permita regular la insolación de un determinado espacio habitable y colaborar a la regulación de su temperatura.
Resumo:
Sensor networks are one of the fastest growing areas in broad of a packet is in transit at any one time. In GBR, each node in the network can look at itsneighbors wireless ad hoc networking (? Eld. A sensor node, typically'hop count (depth) and use this to decide which node to forward contains signal-processing circuits, micro-controllers and a the packet on to. If the nodes' power level drops below a wireless transmitter/receiver antenna. Energy saving is one certain level it will increase the depth to discourage trafiE of the critical issue for sensor networks since most sensors are equipped with non-rechargeable batteries that have limitedlifetime. Routing schemes are used to transfer data collectedby sensor nodes to base stations. In the literature many routing protocols for wireless sensor networks are suggested. In this work, four routing protocols for wireless sensor networks viz Flooding, Gossiping, GBR and LEACH have been simulated using TinyOS and their power consumption is studied using PowerTOSSIM. A realization of these protocols has beencarried out using Mica2 Motes.
Resumo:
Energy is of primary concern in wireless sensor networks (WSNs). Low power transmission makes the wireless links unreliable, which leads to frequent topology changes. Resulting packet retransmissions aggravate the energy consumption. Beaconless routing approaches, such as opportunistic routing (OR) choose packet forwarders after data transmissions, and are promising to support dynamic features of WSNs. This paper proposes SCAD - Sensor Context-aware Adaptive Duty-cycled beaconless OR for WSNs. SCAD is a cross-layer routing solution and it brings the concept of beaconless OR into WSNs. SCAD selects packet forwarders based on multiple types of network contexts. To achieve a balance between performance and energy efficiency, SCAD adapts duty-cycles of sensors based on real-time traffic loads and energy drain rates. We implemented SCAD in TinyOS running on top of Tmote Sky sensor motes. Real-world evaluations show that SCAD outperforms other protocols in terms of both throughput and network lifetime.
