Digital Activism Decoded : The Studies
A study about brain decoding and its applications in braincomputer interface has been completed. The purpose of the study was to investigate the feasibility and efficacy of brain decoding technologies for BCI.
A paper about the proposed adaptive viterbi Decoder for space communication application has been carried out. The principle of the algorithm is that it works on the transforming process of an input code into a compressed form which is compatible with the various receivers used in space communication. A suppressor has been employed to improve the error rates and ensure negligible bandwidth usage in connection with satellite transmissions.
A study about the neural representation of numbers has developed over time. This study used machine learning to determine the representation of numbers in the brain. This study found that the brainwrking representation of numbers is likely decodable from brain activity. This finding offers new insight into the neural representation of numbers and may help us understand the workings of our brains.
A research about brain decoding has been conducted to improve the accuracy of brain decoding. The study used a probabilistic generative model to decode human cognitive contents. The results of the study showed that using a probabilistic generative model made it easier for the researchers to improve the accuracy of brain decoding.
A research about the neural activity frequencies throughout an entire human brain in real time is needed before iBCIs could be used in paralyzed individuals. A recurrent neural network is commonly used to decode neural signals. The study found that the Neural Frequency responded quickly to different tasks, which showed that there was limited training time needed for the network.
An inquiry about the temporal dynamics of visual imagery showed that both perceptual and internally generated imagery engage large, overlapping networks of brain regions. However, it is unclear whether these NETWORKS are similar or different in terms of the ways in which they generate images. This study supplies crucial information that might help us better understand the nature and function of various visual imagery fields.
A journal about digital cinema has demonstrated the importance of JPEG2000 for digital distribution of digital films. The format uses a compression algorithm called JPEG2000, which is efficient and code-effective. This study shows that, with the right implement-ment, the Digital Cinema Package (DCP) can be anatible with various distribution platforms.
An inquiry about the decoding-classification of hand-written digits using Bayesian networks has revealed that the effective brain mechanisms involved in decoding these digits are quite different from those underlying regular written text. This study has helped us understand the corresponding brain mechanisms and processes, which can be useful for designing more efficient and effective reading methods.
An article about the neural representation of financial values has increasingly converged on the possibility that the neural representation may be decodable from brain activity, particularly in parietal cortex. This study has focused on using multimode machine learning techniques to decode the representation of numerical values in brain activity.
An article about the design of asynchronous Viterbi Decoder has been undertaken to reduce power consumption and increase the speed. The study determined that it is necessary to design an asynchronous Viterbi Decoder in order to achieve these goals. It was found that by designing an asynchronous Viterbi Decoder, it would be possible to reduce power consumption as well as increase the speed.
A study about the neural representation of numerical values has been conducted by using brain mapping techniques. The study has revealed that the parietal cortex may be an important place for encoding and decoding symbolic representations of numbers.
A journal about decoding-classification of hand written digits from functional magnetic resonance imaging (fMRI) data has been carried out. Results of the study revealed that successful decoding-classification of hand written digits can help us understand the corresponding brain mechanisms and processes, and assist us in designing more effective medical therapies.
A study about a bidirectional brain-machine interface featuring a neuromorphic hardware decoder has been conducted. The study found that the BMI was able to successfully send and receive motor commands and sensory information.
A paper about turbocodes designs has been conducted and the present findings show that one can create channels that have high decoding performance when compared to traditional FEC channels. The study used a nozzle design approach which allowed for the development of channels with unprecedented error decoding performance.
An evaluation about low power design for asynchronous Viterbi Decoder has been conducted. The results show that this type of decoder has a high speed performance, which makes it especially well suited for wireless applications.
A research about the relationship between technology use and interpersonal communication has been conducted throughout the years, but the impact of technology on nonverbal decoding remains unknown. The study will explore whether or not recent technological advances are enhancing or hindering social relationships. In order to make this determination, a preliminary methodological analysis will be performed in whichverbal and nonverbal decoding abilities will be compared.
An inquiry about five bits of data flash ADC has been presented. This study consists of two main blocks, a comparator and an ADC block. The comparator block is made up of ainductor and an rPWM output buffer. The ADC block is composed of a 5-bit input stage, an amplifier, a demultiplexer, and a flip-flop. The comparator in the DAO block can be used for input comparation against other buffers such as the 0.18-mu m Taiwan Semiconductor Manufacturing Company's CMOS library flash array or external memory. Additionally, the 5-bit input stage can also be used to compare against core dump signals from digital age systems while providing fast back up delay.
A research about calcium spikes in the regulation of wave-like bending dynamics of flagella is carried out. The focus is on microtubules of individual flagellar axoneme serving as nonlinear transmission lines for these spikes. Calcium ions are implicated in this process, and it is revealed that they play a messenger role in the regulation of this behavior.