Event-driven operating systems such as TinyOS are the preferred choice for wireless sensor networks. Alternative designs such as MANTIS following a classical multi-threaded approach are also available. Event-based systems are generally more energy efficient than multi-threaded systems. However, multi-threaded systems are more capable than event-based systems of supporting time critical tasks as task preemption is supported. Timeliness can be traded for energy efficiency by choosing the appropriate operating system. In our recent work we have shown that the multi-threaded system MANTIS can be modified to be as energy efficient as TinyOS. As a result, the modified MANTIS can be used to fit both sensor network design goals of energy efficiency...
Many wireless sensor nodes (motes) interface with slow peripheral devices, requiring the processor t...
Sensor network nodes exhibit characteristics of both embedded systems and general-purpose systems.A ...
In this article we describe a low power processor platform for use in Wireless Sensor Network (WSN) ...
Event-driven operating systems such as TinyOS are the preferred choice for wireless sensor networks....
Two different operating system types are currently considered for sensor networks: event driven and ...
The emergence of the technology of Wireless Sensor Networks has lead to many changes in current and ...
The capabilities of a sensor network are strongly influenced by the operating system used on the sen...
This thesis is focused on issues relating to the management of the operating systems in wireless sen...
Wireless sensor networks are characterized by very tight code size and power constraints, and by a ...
Wireless Sensor nodes fall somewhere in between the single application devices that do not need an o...
© ASEE 2015In this paper, we discuss TinyOS as a flexible operating system that is suitable for wire...
In recent years, networked sensors are finding use in a variety of different applications ranging from...
Memory and energy optimization strategies are essential for the resource-constrained wireless sensor...
Operating system (OS) technology is significant for the proliferation of the wireless sensor network...
Sensor network nodes exhibit characteristics of both embedded systems and general-purpose systems. T...
Many wireless sensor nodes (motes) interface with slow peripheral devices, requiring the processor t...
Sensor network nodes exhibit characteristics of both embedded systems and general-purpose systems.A ...
In this article we describe a low power processor platform for use in Wireless Sensor Network (WSN) ...
Event-driven operating systems such as TinyOS are the preferred choice for wireless sensor networks....
Two different operating system types are currently considered for sensor networks: event driven and ...
The emergence of the technology of Wireless Sensor Networks has lead to many changes in current and ...
The capabilities of a sensor network are strongly influenced by the operating system used on the sen...
This thesis is focused on issues relating to the management of the operating systems in wireless sen...
Wireless sensor networks are characterized by very tight code size and power constraints, and by a ...
Wireless Sensor nodes fall somewhere in between the single application devices that do not need an o...
© ASEE 2015In this paper, we discuss TinyOS as a flexible operating system that is suitable for wire...
In recent years, networked sensors are finding use in a variety of different applications ranging from...
Memory and energy optimization strategies are essential for the resource-constrained wireless sensor...
Operating system (OS) technology is significant for the proliferation of the wireless sensor network...
Sensor network nodes exhibit characteristics of both embedded systems and general-purpose systems. T...
Many wireless sensor nodes (motes) interface with slow peripheral devices, requiring the processor t...
Sensor network nodes exhibit characteristics of both embedded systems and general-purpose systems.A ...
In this article we describe a low power processor platform for use in Wireless Sensor Network (WSN) ...