R. Hari Krishnan scite author profile

Abstract-Cryptocurrency, a form of digital currency that has an open and decentralized system and uses cryptography to enhance security and control the creation of new units, is touted to be the next step from conventional monetary transactions. Many cryptocurrencies exist today, with Bitcoin being the most prominent of them. Cryptocurrencies are generated by mining, as a fee for validating any transaction. The rate of generating hashes, which validate any transaction, has been increased by the use of specialized machines such as FPGAs and ASICs, running complex hashing algorithms like SHA-256 and Scrypt, thereby leading to faster generation of cryptocurrencies. This arms race for cheaper-yet-efficient machines has been on since the day the first cryptocurrency, Bitcoin, was introduced in 2009. However, with more people venturing into the world of virtual currency, generating hashes for this validation has become far more complex over the years, with miners having to invest huge sums of money on employing multiple high performance ASICs. Thus the value of the currency obtained for finding a hash did not justify the amount of money spent on setting up the machines, the cooling facilities to overcome the enormous amount of heat they produce and electricity required to run them. The next logical step in this is to utilize the power of cloud computing. Miners leasing super computers that generate hashes at astonishing rates that have a high probability of profits, with the same machine being leased to more than one person on a time bound basis is a win-win situation to both the miners, as well as the cloud service providers. This paper throws light on the nuances of cryptocurrency mining process, the traditional machines used for mining, their limitations, about how cloud based mining is the logical next step and the advantage that cloud platform offers over the traditional machines.

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A review on squat-assist devices to aid elderly with lower limb difficulties in toileting to tackle constipation

Krishnan

2019

Proc Inst Mech Eng H

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Constipation is an important issue that has impact on quality of life and health expenses of the elderly. It may lead to many other gastrointestinal disorders like colon cancer, haemorrhoids, anal fissures and so on. Squatting is considered to be the natural, traditional and most widely followed posture for defecation and hence, it is one of the practical solutions for avoiding constipation. Musculoskeletal issues due to ageing and changes in lifestyle make it difficult for the elder population to follow squatting or semi-squatting posture for defecation. Developing assistive devices to overcome older people’s difficulty to attain squatting or semi-squatting posture is one of the research areas which need to be explored further. This review covers various designs of such devices which will enable a user to attain ‘semi-squatting’ posture to defecate and also addresses various challenges and limitations to overcome.

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Design and development of a robotic self-transfer device for wheelchair users

Krishnan

Pugazhenthi

2017

JET

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Purpose Wheelchair users face great difficulty in transferring themselves from one surface to another, for example from wheelchair to a toilet commode. In such cases, mostly a caregiver’s assistance may be required, but it affects one’s dignity. The purpose of this paper is to develop a robotic self-transfer device, which is aimed at offering privacy and independence to people with lower limb disabilities in performing daily activities. Design/methodology/approach The device, attached to a powered wheelchair, is useful in transferring a user from a wheelchair to a toilet commode or any other surface following simple and natural transfer procedure without the need of any caregiver. The user can achieve transfer by operating joysticks. The device employs two linear actuators and a motor to accomplish the transfer. Trials were carried out to test the performance of the device by involving potential beneficiaries. Findings The device could successfully transfer the participants from a wheelchair to a chair with less effort in less than a minute. The results of the trials show that the participants felt comfortable in using the device. It was also found that the device is superior to other existing transfer systems in terms of comfort and operation. Originality/value The existing self-transfer systems are alternative solutions that serve the purpose of mobility coupled with self-transfer. Instead of developing an alternative mobility solution, this paper proposes a novel design of a self-transfer device that can be used as an attachment to wheelchair.

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A brief review on lavatory cleaning devices and their feasibility in public toilets in developing countries

Krishnan

2020

Int J Intell Robot Appl

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The purpose of this article is twofold, one is to provide a brief review on various lavatory cleaning devices while the other is to study the feasibility of using these devices in public toilets in developing countries. The article presents a literature review on various lavatory cleaning devices, focusing on various designs available as patent documents and commercially available toilet cleaning robots. The issues that prevent these devices from being deployed in multi-lavatory public toilet complexes in developing countries are discussed. Design considerations of a simple, cost-effective, semi-automated lavatory cleaning robot that may serve as a solution to these issues are also covered in this article.

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R. Hari Krishnan

Mobility assistive devices and self-transfer robotic systems for elderly, a review

Cryptocurrency Mining – Transition to Cloud

A review on squat-assist devices to aid elderly with lower limb difficulties in toileting to tackle constipation

Design and development of a robotic self-transfer device for wheelchair users

A brief review on lavatory cleaning devices and their feasibility in public toilets in developing countries

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