Kush Mishra scite author profile

Kush Mishra

5Publications

77Citation Statements Received

91Citation Statements Given

How they've been cited

106

How they cite others

Affiliations

King Abdullah University of Science and Technology, Indian Institute of Technology Guwahati

Publications

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Recyclable Nonfunctionalized Paper‐Based Ultralow‐Cost Wearable Health Monitoring System

Nassar

Mishra

Lau

et al. 2017

Adv Materials Technologies

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In recent years, innovation in wearable health monitors has surged from significant 30 advances in flexible sensory arrays, wireless technologies, and scaled low-power electronics. Such 31 biometric monitoring devices are critical for continuous monitoring of body vitals and health 32 conditions as means of care for advanced personalized healthcare. Still, widespread deployment of 33 such devices are far more remote due to affordability (viz. complex materials and processes induced 34 higher price), low sensitivity, selectivity, recovery and disposability. Therefore, in addition to 35 functionality, accuracy, comfort and convenience, affordability and accessibility are critical need for 36 the wide adaptation of its benefits. Here we show an integration strategy to rationally design an ultra-37 low cost health monitoring device, a "Paper Watch", using recyclable household materials: non-38 functionalized papers. Its unusual simplicity in manufacturing and in daily use, gives it unprecedented 39

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Expandable Polymer Enabled Wirelessly Destructible High‐Performance Solid State Electronics

Gümüş

Alam

Hussain

et al. 2017

Adv Materials Technologies

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Electronic chips that are commercially available today are durable and long lasting. However, there is a great need for electronic systems that can lose the functionality and struc ture on demand, or after a certain amount of time. Transient electronics is an emerging technology field in which the func tionality of a chip can be altered or completely destroyed in a controlled manner. [1][2][3][4][5][6] Application areas of transient electronics include healthcare where electronic monitoring implants that can be resorbed in the body over time or a network of bio degradable sensors distributed in the environment that can pro vide data for a certain amount of time. [1][2][3][4][5][6][7][8][9][10][11] In today's digital age, the increasing dependence on information also makes us vulnerable to potential invasion of privacy and cyber security. Consider a scenario in which a hard drive is stolen, lost, or misplaced, which contains secured and valuable information. In such a case, it is important to have the ability to remotely destroy the sensitive part of the device (e.g., memory or processor) if it is not possible to regain it. Many emerging materials and even some traditional materials like silicon, aluminum, zinc oxide, tungsten, and magnesium, which are often used for logic processor and memory, show promise to be gradually dissolved upon exposure of various liquid medium. However, often these wet processes are too slow, fully destructive, and require assistance from the liquid materials and their suitable availability at the time of need. This study shows Joule heating effect induced thermal expansion and stress gradient between thermally expandable advanced polymeric material and flexible bulk monocrystalline silicon (100) to destroy highperformance solid state electronics as needed and under 10 s. This study also shows different stimuli-assisted smartphone-operated remote destructions of such complementary metal oxide semiconductor electronics.

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Wearable Sensors: Recyclable Nonfunctionalized Paper‐Based Ultralow‐Cost Wearable Health Monitoring System (Adv. Mater. Technol. 4/2017)

Nassar

Mishra

Lau

et al. 2017

Adv Materials Technologies

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Democratized electronics to enable smart living for all

Hussain

Nassar

Khan

et al. 2017

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The first time when we tossed this terminology seven years back, we thought reducing complexities in human life. Today we believe it more. However, smart living for all complicates the technological need further. As by all, we mean any age group, any academic background and any financial condition. Although electronics are powerful today and have enabled our digital world, many as of today have not experienced that progress. Going forward while we realize more and more electronics in our daily life, the most important question would be how. Here we show, a heterogeneous integration approach to integrate low-cost high performance interactive electronic system which are physically compliant. We are redesigning electronics to redefine its purposes to reconfigure life for all to enable smart living.

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A Discrete Event System Approach to Online Testing of Speed Independent Circuits

et al. 2015

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With the increase in soft failures in deep submicron ICs, online testing is becoming an integral part of design for testability. Some techniques for online testing of asynchronous circuits are proposed in the literature, which involves development of a checker that verifies the correctness of the protocol. This checker involves Mutex blocks making its area overhead quite high. In this paper, we have adapted the Theory of Fault Detection and Diagnosis available in the literature on Discrete Event Systems to online testing of speed independent asynchronous circuits. The scheme involves development of a state based model of the circuit, under normal and various stuck-at fault conditions, and finally designing state estimators termed as detectors. The detectors monitor the circuit online and determine whether it is functioning in normal/failure mode. The main advantages are nonintrusiveness and low area overheads compared to similar schemes reported in the literature.

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Kush Mishra

Recyclable Nonfunctionalized Paper‐Based Ultralow‐Cost Wearable Health Monitoring System

Expandable Polymer Enabled Wirelessly Destructible High‐Performance Solid State Electronics

Wearable Sensors: Recyclable Nonfunctionalized Paper‐Based Ultralow‐Cost Wearable Health Monitoring System (Adv. Mater. Technol. 4/2017)

Democratized electronics to enable smart living for all

A Discrete Event System Approach to Online Testing of Speed Independent Circuits

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