Titlebook: Ultra-Low-Power Short-Range Radios; Patrick P. Mercier,Anantha P. Chandrakasan Book 2015 Springer International Publishing Switzerland 201

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Patrick P. Mercier,Anantha P. Chandrakasan ultimately determine vitreous chamber depth and thus overall eye length. This chapter summarizes results of recent RPE studies, including RPE-derived growth factors, neurotransmitters and their receptors, ion channels, and RPE morphological changes in the context of eye growth regulation and myopia

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Hyungwoo Lee,Seong-Jun Song,Namjun Cho,Joonsung Bae,Hoi-Jun Yoo

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Circuit Techniques for Ultra-Low Power Radios,ation and high performance over a highly variable environment. Implantable systems are a prime example of this. In this chapter, we will begin with an overview of system considerations, application driven challenges, and proceed to discuss the existing design approaches to make the reader aware of t

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Centimeter-Range Inductive Radios,communication. Finally, new pulse-harmonic modulation (PHM) and pulse-delay modulation (PDM) schemes that offer high data rate in IMDs without dissipating much power on the implantable side are presented.

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Energy Harvesting Opportunities for Low-Power Radios,able power is always extracted from the energy harvester. In this chapter, the basics of energy harvesting systems will be discussed with a focus on low power design techniques, maximum power extraction and battery management in these systems.

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Introduction to Ultra Low Power Transceiver Design, devices and beyond. Achieving low power operation is usually an exercise in trading-off important performance metrics with power. This chapter presents an overview of state-of-the-art narrowband architectures and techniques that achieve ultra-low-power operation, and concludes with a section that b

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Channel Modeling for Wireless Body Area Networks,, placed in, on, around and some-times near the human body. BANs are motivated by the health-care application domain where reliable, long-term, operation is paramount. Hence understanding, and modeling, the body-area radio propagation channel is vital. In this chapter we describe channel models for

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