Homomorphic commitment scheme with constant output locality

Low output locality is a property of functions, in which every output bit depends on a small number of input bits. In IoT devices with only a fragile CPU, it is important for many IoT devices to cooperate to execute a single function. In such IoT’s collaborative work, a feature of low output locality is very useful. This is why it is desirable to reconstruct cryptographic primitives with low output locality. However, until now, commitment with a constant low output locality has been constructed by using strong randomness extractors from a nonconstant-output-locality collision-resistant hash function. In this paper, we construct a commitment scheme with output locality-3 from a constant-output-locality collision-resistant hash function for the first time. We prove the computational hiding property of our commitment by the decisional M , δ -bSVP assumption and prove the computational binding property by the M , δ -bSVP assumption, respectively. Furthermore, we prove that the M , δ -bSVP assumption can be reduced to the decisional M , δ -bSVP assumption. We also give a parameter suggestion for our commitment scheme with the 128 bit security.

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WPT systems with almost constant output voltage – method design including voltage/current distortions

2021 IEEE 19th International Power Electronics and Motion Control Conference (PEMC) ◽

10.1109/pemc48073.2021.9432525 ◽

2021 ◽

Author(s):

Zbigniew Kaczmarczyk ◽

Michal Zellner ◽

Piotr Legutko

Keyword(s):

Output Voltage ◽

Constant Output

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Extended-Distance Wireless Power Transfer System with Constant Output Power and Transfer Efficiency based on Parity-Time-Symmetric Principle

IEEE Transactions on Power Electronics ◽

10.1109/tpel.2021.3056538 ◽

2021 ◽

pp. 1-1

Author(s):

Xujian Shu ◽

Bo Zhang ◽

Zhihao Wei ◽

Chao Rong ◽

Shubin Sun

Keyword(s):

Output Power ◽

Wireless Power Transfer ◽

Transfer Efficiency ◽

Transfer System ◽

Power Transfer ◽

Wireless Power ◽

Constant Output ◽

Wireless Power Transfer System

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Variable Speed Vector Control for Induction Motor of Electric Vehicle

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.699.759 ◽

2014 ◽

Vol 699 ◽

pp. 759-764

Author(s):

Amilia Emil Hasan ◽

Haryani Hassan ◽

Ismadi Bugis

Keyword(s):

Embedded System ◽

Vector Control ◽

Induction Motor ◽

Control Method ◽

Torque Ripple ◽

Electromagnetic Torque ◽

Motor Speed ◽

Speed Controller ◽

Speed Performance ◽

Constant Output

This paper presents the speed performance of an induction motor by using a vector control. The control scheme used is an indirect vector control for define speed command. The main focus of this research is to observe on the dynamic speed performance of the induction motor when the command speed is given to the motor. In this study, the system of indirect vector control will be built by using Matlab Simulink. In fact, the expression of exciting flux linkage and electromagnetic torque are used to create a simple embedded system which to find out the effects of flux weakening in motor while, the gain of the speed controller is 100. The result shows that the vector control method will cause immediate the motor speed response with a small electromagnetic torque ripple. Furthermore, the output mechanical torque starts to decrease when the motor speed above the base speed to maintain a constant output power operation. This paper contributes a new algorithm to analysis the system when the speed motor is higher than a base speed.

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Exploration of EMI in Buck Boost Converter – A Real Time Approach

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.573.78 ◽

2014 ◽

Vol 573 ◽

pp. 78-82

Author(s):

Gopal Janaki ◽

A. Senthil Kumar

Keyword(s):

Closed Loop ◽

Load Condition ◽

Boost Converter ◽

Experimental Result ◽

Loop Control ◽

Class A ◽

Linear Load ◽

Constant Output ◽

Non Linear Load ◽

Conducted Emi

This paper explores the level of conducted EMI in a buck boost converter under a non linear load condition based on the CISPR 11 / Class A EMC standard. Here, the buck boost converter was designed to produce a constant output voltage irrespective of load conditions. The closed loop control is designed using dsPIC controller. Three different randomization firing schemes are adopted and the EMI analysis in each mode is done experimentally. Also, the results are compared with normal PWM scheme. The experimental result shows that in RPWM scheme the emission levels are comparatively low.

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Design of a Compliant Mechanism to Modify an Actuator Characteristic to Deliver a Constant Output Force

Journal of Mechanical Design ◽

10.1115/1.2218883 ◽

2006 ◽

Vol 128 (5) ◽

pp. 1101 ◽

Cited By ~ 39

Author(s):

C. B. W. Pedersen ◽

N. A. Fleck ◽

G. K. Ananthasuresh

Keyword(s):

Compliant Mechanism ◽

Output Force ◽

Constant Output

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Alterations in Systemic Vascular Volume of the Dog in Response to Hexamethonium and Norepinephrine

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1957.191.2.283 ◽

1957 ◽

Vol 191 (2) ◽

pp. 283-286 ◽

Cited By ~ 35

Author(s):

John C. Rose ◽

Edward D. Freis

Keyword(s):

Cardiac Output ◽

Venous Return ◽

Cardiac Activity ◽

Left Ventricular ◽

Vascular Volume ◽

Vasomotor Activity ◽

Constant Output ◽

Arteriolar Tone ◽

Integrated Responses

A diaphragm pump of controlled constant output was substituted for the left ventricle in dogs. Left auricular blood was conducted to a reservoir, from which it was pumped into the thoracic aorta. Left ventricular by-pass was complete. Alterations in total vascular volume were continually monitored by observation of the pump reservoir level. Sympathetic blockade (hexamethonium) increased total vascular volume (mean 15%). This resulted in decreased venous return and decreased right ventricular output. Norepinephrine constricted the total vasculature and decreased vascular volume (mean 12%). This resulted in increased venous return and cardiac output. These experiments demonstrated the complex integrated responses of the total circulation to sympathetic vasomotor activity. The role of the sympathetic nervous system not only in the regulation of arteriolar tone and cardiac activity but also in adjusting total vascular volume and venous return was emphasized. Venous return, and hence cardiac output alterations accompanying systemic vasomotor activity can only be detected by continuous methods of flow measurement.

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