BATTERY LESS, WSN-BASED HEALTH CARE UNIT THAT DRIVES A BACKSCATTERING TRANSMITTER

A potential means to fix minimize power consumption is using asynchronous sensor architectures that sample and transmit data only if a celebration is detected. A celebration-driven sensor consumes minimal power unless of course a celebration is detected. This paper presents the style of asynchronous ECG monitoring and knowledge transmission that cuts down on the circuitry power use of the sensor node without using power gating and requiring neither exterior energy storage devices nor a very like a time reference. The offset calibration is really a typical foreground calibration that's enabled during system startup or manual resetting. The sensor node that is remotely operated by the hub is really a peripheral device from the network that transmits data towards the hub in the recognition of the event. The information processing and memory allocation will be performed through the hub. Therefore, the sensor node can operate from hardly any power. The Two-output items of the ADC are combined and transmitted concurrently, otherwise information could be lost. Employing pulse duration modulation (PDM), the two-bit data stream is combined to create pulses with various time duration for upward conversion and downward conversion. Which means that the transmitter creates a pulse when LT signifies a conversion and U/D defines the time period of this pulse? Within the circuit created for backscattering data transmission, the pulsed signal modulates the 402 MHz RF signal received within the LC network, applying ON-OFF-Keying modulation through transistor. The LC-ADC has both magnitude resolution and time resolution. As time resolution is incorporated within the measurement, the general SNDR is degraded when compared to standalone LNA SNDR

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Not AvailableA set of 24 genotypes were studied for 17 grain quality characters and validated with the reported associated rice microsatellite markers with grain quality characters. Using 23 polymorphic markers distributed across 11 chromosomes marker-trait associations were studied. The percentage of polymorphism information content (PIC) of the markers ranged between 54.0 and 86.7. Eight markers with [80%] and seven markers with [70%] of PIC were found to be efficient in differentiating the studied grain quality characters. A total of 37 significant marker-trait associations (P B 0.09) were found with R2 ranging from 4.70% to 43.80%. Eight markers a (RM246, RM11, RM241, RM16427, RM421, RM3, RM234 and RM257) showed association with more than one character suggesting their utility for the selection for grain quality characters which can be deployed in the rice crop improvement programmes.ICAR CRP Biofortificatio

BIODECOLORIZATION OF ANTHRAQUINONE TEXTILE (ACID BLUE 25) DYE BY KLEBSIELLA SP

Acid Blue 25 is an Anthraquinone based dye extensively used in textile industries, many bacterial isolates obtained from the textile effluents showed the decolorization activity, among all isolates, Klebsiella sp. showed maximum decolorization potential. In the present study different tests have been conducted to optimize the decolorization efficiency, such as enrichment of carbon & Nitrogen source with different concentrations, P H , Temperature, size of inoculums etc., 70% to 90% of decolorization activity was recorded within 48 hrs of incubation at static conditions by Klebsiella sp. The degradation was confirmed by UV-Visible spectrum and TLC analysis. Microbial Toxicity study revealed the degradation of Acid blue 25 in to non-toxic products by klebsiella sp. High efficiency of dye decolorization is a key for the degradation of biological treatment of polluted effluents. Therefore Klebsiella sp. appears to be the promising organism for acid blue 25 dye degradation

Assessment of reproductive stage drought tolerance using stress indices in improved restorer lines of KMR-3R in rice

Drought stress during the reproductive stage is an evident limitation of rice grain yield. The present study aimed to assess the reproductive stage drought tolerance of eight promising backcross inbred lines (BILs) with complete fertility restoration in the genetic background of KMR-3R. Various stress indices based on grain yield under Non-stress (NS) and drought-stress (DS) conditions were used to assess BILs drought tolerance potential. Based on correlation analysis, the best indices for determining drought-tolerant genotypes were K2STI, YI, HM, SNPI, GMP, and DTI. By ensuring stable performance, the indices K2STI and YI were crucial criteria in identifying DS genotypes. The stress-tolerant and susceptible genotypes were best differentiated under DS using the susceptible indices TOL and ATI, which had considerably low values. The IL-1, IL-2, and IL-7 (RP6340-NRR-5, RP6340-NRR-11, and RP 6340-NPVR-25) were identified as promising drought-tolerant genotypes based on lower grain yield reduction under DS. The improved restorers with drought tolerance performed well under DS in terms of agronomy, and it may be exploited in hybridization programs to develop elite drought-tolerant rice hybrids for unfavorable ecologies