Crptography based Lifi for Patient Privacy and Emergency Health Service Using IOT

Medical care is one such region, where WIFI is as yet not utilized as the electromagnetic waves influences patients with sicknesses like neurological problems, diseases and so forth. Accordingly, LIFI can be respected the following large thing, as it represents no gamble to patients and offers more advantages than WIFI, such as faster speeds and a larger spectrum. The only issue that hospitals have while exchanging data through it is ensuring confidentiality. The methodology proposed here leverages Secure Hash Algorithms to give maximum security as a solution to this challenge. The Secure Hash Algorithm is a bonus feature that is mostly utilised for authentication. IoT connects physical devices such as sensors and actuators to networks. The programming routines can be visualised from any location thanks to cloud storage. These algorithms can be employed in a variety of applications, including smart homes, digital technologies, and banking systems. This research presents a model that takes into account a human's heart rate, glucose level, and temperature. In the even to fan emergency, adjacent hospitals are alerted to the patient's condition, allowing them to provide timely and correct care. This will save you from having to go to the hospital. Temperature, blood pressure, heart rate, gas sensor, and fall detection are among the vital signs monitored by the system. An Arduino controller and a GSM900Amodule make up the system design. The monitored values can be supplied via mobile phones, and if an abnormal state is detected, the buzzer is activated, and the information is communicated to the concerned members via the mobile app

Superficial preparation of biocompatible carbon quantum dots for antimicrobial applications

UGC-NFHE; GC-RGNF; New Delhi, India; Government of India

Environmental effects of ozone depletion, UV radiation and interactions with climate change : UNEP Environmental Effects Assessment Panel, update 2017

Peer reviewe

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Not AvailableThe organic movement may have gained a place in the spotlight of the mainstream now, but it has not been like that for long. Since the 1950s, organic farmers operating at a grassroots level have devised, tested and shared production methods. Organic crop production in the organic farming system is gradually gaining momentum worldwide. For achieving sustainable food–livelihood–environmental security, an array of alternatives to chemical intensive agriculture is to be developed. Globally, 187 countries are involved in organic farming with 72.3 million ha land. The area of organic farming increased rapidly from 0.58 thousand ha in 2003–04 to 26.6 thousand ha in 2020–21, and many government schemes are initiated. Of the farmers involved in organic farming globally, 43.8% are from India, but currently India shares only 4.7% to global area. Therefore, technology development is going to play a critical role in enhancing the area, production and productivity. Integrated organic farming system models enhanced the system productivity and resulted in net returns ` 171,867/ha in Umiam, Meghalaya to ` 433,490/ha in Thiruvananthapuram, Kerala. Hence, organic farming endorses the one health approach to ensure healthy soil, plant, animal, human and environment. Organic farming improves the ecosystem services through regenerative approach for rehabilitation of food and farming systems. Therefore, it is an alternative viable option for sustainable and clean food production with minimum environmental pollution. Organic farming practices are suitable for small and marginal farmers, especially for their sustainable livelihood food security and to minimize the risk. Sustained efforts from research institutes, developmental organizations, progressive farmers, input dealers, processors and other stakeholders are warranted for better adoption of organic farming in horticultural crops in the long run. In this article, suitable location–specific organic farming technologies for agricultural and horticultural crops are focused.Not Availabl

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Not AvailableDevelopment of hybrids in sunflower are increasing recently since, the hybrids are highly self-fertile, stable, high yielding and more uniformity under different climatic conditions. Sunflower hybrid COH 3 (CSFH 12205) have been released during 2018 which is suitable for Tamil Nadu with the duration of 90-95 days. COH 3 hybrid was tested in Station Trials, Multi-Location Trial, AICRP Trials, Adaptive Research Trial and On Farm Trials. It performed well both under rainfed and irrigated conditions. Sunflower COH 3 recorded an average yield of 2214 kg/ha which is 20.5 per cent over Sunbred 275 and hybrid having the yield potential of 2384 kg/ha during Kharif season and 2043 kg/ha during Rabi. COH 3 hybrid possessing high oil content around 42 per cent as compared to check hybrids viz.,Sunbred 275 (38%) and Hybrid CO 2 (39 %) and high volume weight of 47 g/100ml. This hybrid recorded the highest oil yield of 716 kg/ha which is 26.7 and 20.1 per cent over Sunbred 275 (565 kg/ha) and CO 2 Hybrid (596 kg/ha), respectively. Non-lodging hybrid COH 3 having moderate resistance to necrosis, leaf spot and powdery mildew diseases.Not Availabl