Guidance Documents Please download the Technical Documents Catalogue that covers the technical guidance and contains an overall view of the standards, recommendations, guidelines, and model courses in force with a […]
[vc_row][vc_column width=”1/4″][vc_single_image image=”59301″ img_size=”320×400″][/vc_column][vc_column width=”3/4″][vc_column_text] Download Complete Issue Current Issue features key papers related to multidisciplinary domains involving complex system stemming from numerous disciplines; this is exactly how this journal differs from...
US Patent for Method, apparatus, server and system for vital sign detection and monitoring Patent (Patent # 10,735,298 issued August 4, 2020) - Justia Patents Search
Methods, apparatus and systems for detecting and monitoring vital signs and other periodic motions of an object are disclosed. In one example, a system for monitoring object motion in a venue is disclosed. The system comprises a transmitter, a receiver, and a vital sign estimator. The transmitter is located at a first position in the venue and configured for transmitting a wireless signal through a wireless multipath channel impacted by a pseudo-periodic motion of an object in the venue. The receiver is located at a second position in the venue and configured for: receiving the wireless signal through the wireless multipath channel impacted by the pseudo-periodic motion of the object in the venue, and obtaining at least one time series of channel information (TSCI) of the wireless multipath channel based on the wireless signal. The vital sign estimator is configured for: determining that at least one portion of the at least one TSCI in a current sliding time window is associated with the pseudo-periodic motion of the object in the venue, and computing a current characteristics related to the pseudo-periodic motion of the object in the current sliding time window based on at least one of: the at least one portion of the at least one TSCI in the current sliding time window, at least one portion of the at least one TSCI in a past sliding time window, and a past characteristics related to the pseudo-periodic motion of the object in the past sliding time window.
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Two-Level Parallelism to Accelerate Multiple Genome Comparisons | SpringerLink
We present a two-level parallel strategy focused in the enhancement of GECKO software for multiple and pairwise genome comparisons. GECKO was developed to break the computational barriers on search space and memory demands faced by equivalent software. However,...
Two level parallelism and I/O reduction in genome comparisons | SpringerLink
Cluster Computing - Genome comparison poses important computational challenges, especially in CPU-time, memory allocation and I/O operations. Although there already exist parallel approaches of...
Can't seem to defeat Trinity Spector in Ceres Junction - Players helping Players - Warframe Forums
Hi Everyone, So, this may seem really noobish but I haven't played Warframe for very long, 100 or so hours. I played during the Lunaro update and am now gettting used to the changes Spectors of the Rail brought. I've been unlocking planets by completing the requirements for each junction but righ...
Systems biology approaches to enhance our understanding of drug hypersensitivity reactions, Clinical & Experimental Allergy | 10.1111/cea.12371 | DeepDyve
Hypersensitivity drug reactions (HDRs) encompass a wide spectrum of unpredictable clinical entities. They represent an important health problem, affecting people of all ages, and lead to a large strain on the public health system. Here, we summarize experiments that use high‐throughput genomics technologies to investigate HDRs. We also introduce the field of systems biology as a relatively recent discipline concerned with the integration and analysis of high‐throughput data sets such as DNA microarrays and next‐generation sequencing data. We describe previous studies that have applied systems biology techniques to related fields such as allergy and asthma. Finally, we present a number of potential applications of systems biology to the study of HDRs, in order to make the reader aware of the types of analyses that can be performed and the insights that can be gained through their application.
Surface-based brain imaging analysis offers the advantages of preserving the topology of cortical activation, increasing statistical power of group-level statistics, estimating cortical thickness, and visualizing with ease the pattern of activation across ...
