Presently, wireless sensor nodes are widely used and the lifetime of the system is becoming the biggest problem with using this technology. As more and more low power products have been used in WSN, energy harvesting technologies, based on their own characteristics, attract more and more attention in this area. But in order to design high energy efficiency, low cost and nearly perpetual lifetime micro energy harvesting system is still challenging. This thesis proposes a new way, by applying three factors of the system, which are the energy generation, the energy consumption and the power management strategy, into a theoretical model, to optimally design a highly efficient micro energy harvesting system in a real environment. In order to ach...
Wireless Sensor Networks are successfully used in the current times to many applications and system...
Ultra-low power systems such as Wireless sensor network (WSN) nodes have emerged as an active resear...
In this paper we propose a methodology for optimizing a solar harvester with maximum-power point tra...
Wireless sensor networks (WSN) are becoming widely adopted for many applications including complicat...
The Wireless Sensor Networks (WSN) are the basic building blocks of today’s modern internet of...
Rapid advances in nanoscale integration and low power design techniques have resulted in a variety o...
Information and Communication Technology (ICT) is changing the way we live and has become an essenti...
Advances in micro-electronics and miniaturized mechanical systems are redefining the scope and exten...
Power management strategies are extremely important in Wireless Sensor Networks (WSNs). The objectiv...
\u27Internet of Things\u27 (IoT) technology is becoming one of the most important driving forces in ...
The ultimate goal of low-power distributed embedded systems is to develop devices which are able to ...
In an energy harvester powered wireless sensor node system, as the energy harvester is the only ener...
Energy harvesting provides a promising opportunity as the power source for wireless sensors for the ...
Wireless Networks are monitoring infrastructures composed of sensing (measuring), computing, and com...
Energy harvesting enables perpetual operation of wireless sensor nodes by scavenging energy from the...
Wireless Sensor Networks are successfully used in the current times to many applications and system...
Ultra-low power systems such as Wireless sensor network (WSN) nodes have emerged as an active resear...
In this paper we propose a methodology for optimizing a solar harvester with maximum-power point tra...
Wireless sensor networks (WSN) are becoming widely adopted for many applications including complicat...
The Wireless Sensor Networks (WSN) are the basic building blocks of today’s modern internet of...
Rapid advances in nanoscale integration and low power design techniques have resulted in a variety o...
Information and Communication Technology (ICT) is changing the way we live and has become an essenti...
Advances in micro-electronics and miniaturized mechanical systems are redefining the scope and exten...
Power management strategies are extremely important in Wireless Sensor Networks (WSNs). The objectiv...
\u27Internet of Things\u27 (IoT) technology is becoming one of the most important driving forces in ...
The ultimate goal of low-power distributed embedded systems is to develop devices which are able to ...
In an energy harvester powered wireless sensor node system, as the energy harvester is the only ener...
Energy harvesting provides a promising opportunity as the power source for wireless sensors for the ...
Wireless Networks are monitoring infrastructures composed of sensing (measuring), computing, and com...
Energy harvesting enables perpetual operation of wireless sensor nodes by scavenging energy from the...
Wireless Sensor Networks are successfully used in the current times to many applications and system...
Ultra-low power systems such as Wireless sensor network (WSN) nodes have emerged as an active resear...
In this paper we propose a methodology for optimizing a solar harvester with maximum-power point tra...