View allAll Photos Tagged reasoning
By all reasoning, these should have exploded last night. All other standing water was solid.
Uploaded from Mace's iPhone.
Launch of the new Center for Human-Applied Reasoning and the Internet of Things, or CHARIOT. CHARIOT is a joint Center between USC Rossier and Viterbi to combine cutting-edge cognitive science and education research with emerging Internet of Things (IoT) technologies to revolutionize personalized education.
Photos/Margaret Malloy
Launch of the new Center for Human-Applied Reasoning and the Internet of Things, or CHARIOT. CHARIOT is a joint Center between USC Rossier and Viterbi to combine cutting-edge cognitive science and education research with emerging Internet of Things (IoT) technologies to revolutionize personalized education.
Photos/Margaret Malloy
no real reasoning behind this one, other than the fact that i like the plaques & numbers nailed to telegraph poles & that i was eding lots of photos today so i only left the house once to go to the shop for more coke. i took this on the way.
nikon d50 1/100 f5.6
Christopher L. Barrett, Executive Director, Virginia Bioinformatics Institute/Professor of Computer Science, Virginia Tech. Dr. Barrett’s talk entitled “Massively Interactive Systems: Thinking and Deciding in the Age of Big Data"
Abstract: This talk discusses advanced computationally assisted reasoning about large interaction-dominated systems. Current questions in science, from the biochemical foundations of life to the scale of the world economy, involve details of huge numbers and levels of intricate interactions. Subtle indirect causal connections and vastly extended definitions of system boundaries dominate the immediate future of scientific research. Beyond sheer numbers of details and interactions, the systems are variously layered and structured in ways perhaps best described as networks. Interactions include, and often co-create, these morphological and dynamical features, which can interact in their own right. Such “massively interacting” systems are characterized by, among other things, large amounts of data and branching behaviors. Although the amount of associated data is large, the systems do not even begin to explore their entire phase spaces. Their study is characterized by advanced computational methods. Major methodological revisions seem to be indicated.
Heretofore unavailable and rapidly growing basic source data and increasingly powerful computing resources drive complex system science toward unprecedented detail and scale. There is no obvious reason for this direction in science to change. The cost of acquiring data has historically dominated scientific costs and shaped the research environment in terms of approaches and even questions. In the several years, as the costs of social data, biological data and physical data have plummeted on a per-unit basis and as the volume of data is growing exponentially, the cost drivers for scientific research have clearly shifted from data generation to storage and analytical computation-based methods. The research environment is rapidly being reshaped by this change and, in particular, the social and bio–sciences are revolutionized by it. Moreover, the study of socially– and biologically–coupled systems (e.g., societal infrastructures and infectious disease public health policy analysis) is in flux as computation-based methods begin to greatly expand the scope of traditional problems in revolutionary ways.
How does this situation serve to guide the development of “information portal technology” for complex system science and for decision support? An example of an approach to detailed computational analysis of social and behavioral interaction with physical and infrastructure effects in the immediate aftermath of a devastating disaster will be described in this context.
The reasoning for hiring A & I Fire and Water Restoration for Graffiti Removal Services Near Me is that graffiti gives the impression of danger, and dangerous neighborhoods scare off potential customers. People are more likely to avoid your business if you have graffiti on your walls.
Christopher L. Barrett, Executive Director, Virginia Bioinformatics Institute/Professor of Computer Science, Virginia Tech. Dr. Barrett’s talk entitled “Massively Interactive Systems: Thinking and Deciding in the Age of Big Data"
Abstract: This talk discusses advanced computationally assisted reasoning about large interaction-dominated systems. Current questions in science, from the biochemical foundations of life to the scale of the world economy, involve details of huge numbers and levels of intricate interactions. Subtle indirect causal connections and vastly extended definitions of system boundaries dominate the immediate future of scientific research. Beyond sheer numbers of details and interactions, the systems are variously layered and structured in ways perhaps best described as networks. Interactions include, and often co-create, these morphological and dynamical features, which can interact in their own right. Such “massively interacting” systems are characterized by, among other things, large amounts of data and branching behaviors. Although the amount of associated data is large, the systems do not even begin to explore their entire phase spaces. Their study is characterized by advanced computational methods. Major methodological revisions seem to be indicated.
Heretofore unavailable and rapidly growing basic source data and increasingly powerful computing resources drive complex system science toward unprecedented detail and scale. There is no obvious reason for this direction in science to change. The cost of acquiring data has historically dominated scientific costs and shaped the research environment in terms of approaches and even questions. In the several years, as the costs of social data, biological data and physical data have plummeted on a per-unit basis and as the volume of data is growing exponentially, the cost drivers for scientific research have clearly shifted from data generation to storage and analytical computation-based methods. The research environment is rapidly being reshaped by this change and, in particular, the social and bio–sciences are revolutionized by it. Moreover, the study of socially– and biologically–coupled systems (e.g., societal infrastructures and infectious disease public health policy analysis) is in flux as computation-based methods begin to greatly expand the scope of traditional problems in revolutionary ways.
How does this situation serve to guide the development of “information portal technology” for complex system science and for decision support? An example of an approach to detailed computational analysis of social and behavioral interaction with physical and infrastructure effects in the immediate aftermath of a devastating disaster will be described in this context.
Launch of the new Center for Human-Applied Reasoning and the Internet of Things, or CHARIOT. CHARIOT is a joint Center between USC Rossier and Viterbi to combine cutting-edge cognitive science and education research with emerging Internet of Things (IoT) technologies to revolutionize personalized education.
Photos/Margaret Malloy
Launch of the new Center for Human-Applied Reasoning and the Internet of Things, or CHARIOT. CHARIOT is a joint Center between USC Rossier and Viterbi to combine cutting-edge cognitive science and education research with emerging Internet of Things (IoT) technologies to revolutionize personalized education.
Photos/Margaret Malloy
Launch of the new Center for Human-Applied Reasoning and the Internet of Things, or CHARIOT. CHARIOT is a joint Center between USC Rossier and Viterbi to combine cutting-edge cognitive science and education research with emerging Internet of Things (IoT) technologies to revolutionize personalized education.
Photos/Margaret Malloy