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A DISTANT CONNECTION is an absolute must read for all who find themselves intrigued by the criminal lifestyle in its many facets. From a hi-maximum security prison cell constructed to maximize human loneliness; a site designed to kill the mind; Kenneth Jamal Lighty manages to not only live, but thrive. Through self-cultivated intellect and hard-earned wisdom, he uses the single, most powerful weapon known to a prisoner -the ink pen- to not only bring the plight of the incarcerated into the consciousness of many throughout the world, but also to make a difference by inspiring and informing those whom he manages to come into contact with. In his book debut, Kenneth's efforts to warn a generation of youth who appear to be enamored with street life are nothing short of remarkable. Reaching out to several of his peers, spanning several states across the country, and with various affiliations, he manages to create a pseudo-panel, providing a platform for prisoners to be able to share the hard-earned wisdom attained from years of making their own mistakes, in an effort to alter the trajectory of a generation that is seemingly on a road that will only lead to one or two places: the penitentiary or the cemetery. Via letters, filled with rawness and empathy, each reader is challenged to try a different route to "success". Each individual opens up to reveal the pain beneath the exterior, and offers sound advice on how not to end up a victim of bad choices, before it is too late. Long overdue, A Distant Connection is a much needed intervention that will hopefully inspire change, and place our young people back on the path that will lead to a productive, healthy future.
An instant Wall Street Journal Bestseller The definitive guide to communicating and connecting in a hybrid world. Email replies that show up a week later. Video chats full of “oops sorry no you go” and “can you hear me?!” Ambiguous text-messages. Weird punctuation you can’t make heads or tails of. Is it any wonder communication takes us so much time and effort to figure out? How did we lose our innate capacity to understand each other? Humans rely on body language to connect and build trust, but with most of our communication happening from behind a screen, traditional body language signals are no longer visible -- or are they? In Digital Body Language, Erica Dhawan, a go-to thought leader on collaboration and a passionate communication junkie, combines cutting edge research with engaging storytelling to decode the new signals and cues that have replaced traditional body language across genders, generations, and culture. In real life, we lean in, uncross our arms, smile, nod and make eye contact to show we listen and care. Online, reading carefully is the new listening. Writing clearly is the new empathy. And a phone or video call is worth a thousand emails. Digital Body Language will turn your daily misunderstandings into a set of collectively understood laws that foster connection, no matter the distance. Dhawan investigates a wide array of exchanges—from large conferences and video meetings to daily emails, texts, IMs, and conference calls—and offers insights and solutions to build trust and clarity to anyone in our ever changing world.
The most important of all questions in this book might be that one about how you want your relationships to be. If your answer to that question is clear, it will be much easier to know how to act and what to request of the other. All tools in the world becomes redundant if you do not know what you want to use them for. Your positive attitude will make it easier to stand challenges but will not take you to the goal. This booklet will help you evaluate, repair, and nurture the relationships that you want to see flower.
This volume collects ten surveys on the modeling, simulation, and applications of active particles using methods ranging from mathematical kinetic theory to nonequilibrium statistical mechanics. The contributing authors are leading experts working in this challenging field, and each of their chapters provides a review of the most recent results in their areas and looks ahead to future research directions. The approaches to studying active matter are presented here from many different perspectives, such as individual-based models, evolutionary games, Brownian motion, and continuum theories, as well as various combinations of these. Applications covered include biological network formation and network theory; opinion formation and social systems; control theory of sparse systems; theory and applications of mean field games; population learning; dynamics of flocking systems; vehicular traffic flow; and stochastic particles and mean field approximation. Mathematicians and other members of the scientific community interested in active matter and its many applications will find this volume to be a timely, authoritative, and valuable resource.
An up-to-date overview of the field of connectomics, introducing concepts and mechanisms underlying brain network change at different stages. The human brain undergoes massive changes during its development, from early childhood and the teenage years to adulthood and old age. Across a wide range of species, from C. elegans and fruit flies to mice, monkeys, and humans, information about brain connectivity (connectomes) at different stages is now becoming available. New approaches in network neuroscience can be used to analyze the topological, spatial, and dynamical organization of such connectomes. In Changing Connectomes, Marcus Kaiser provides an up-to-date overview of the field of connectomics and introduces concepts and mechanisms underlying brain network changes during evolution and development. Drawing on a range of results from experimental, clinical, and computational studies, Kaiser describes changes during healthy brain maturation and during brain network disorders (including such neurodevelopmental conditions as schizophrenia and depression), brain injury, and neurodegenerative disorders including dementia. He argues that brain stimulation is an area where understanding connectome development could help in assessing long-term effects of interventions. Changing Connectomes is a suitable starting point for researchers who are new to the field of connectomics, and also for researchers who are interested in the link between brain network organization and brain and cognitive development in health and disease. Matlab/Octave code examples available at the MIT Press website will allow computational neuroscience researchers to understand and extend the shown mechanisms of connectome development.
Arti?cial immune systems (AIS) is a diverse and maturing area of research that bridges the disciplines of immunology and computation. The original research impetus in AIS had a clear focus on applying immunological principles to c- putationalproblemsinpracticaldomainssuchascomputersecurity,datamining and optimization. As the ?eld has matured, it has diversi?ed such that we now see a growing interest in formalizing the theoretical properties of earlier - proaches, elaborating underlying relationships between applied computational models and those from theoretical immunology, as well a return to the roots of the domain in which the methods of computer science are being applied to - munological modelling problems. Following the trends in the ?eld, the ICARIS conference intends to provide a forum for all these perspectives. The 9th InternationalConference on AIS (ICARIS 2010)built on the success of previous years, providing a convenient vantage point for broader re?ection as it returned to Edinburgh, the venue of the Second ICARIS in 2003. This time, the conference was hosted by Edinburgh Napier University at its Craiglockhart Campus, recently reopened after extensive refurbishment which has resulted in a stunning building and state-of-the-art facilities. The extent to which the ?eld has matured over the preceding years is clear; a substantial track of theor- ical research now underpins the discipline. The applied stream has expanded in its outlook, and has examples of AIS algorithms being applied across a wide spectrum of practicalproblems,rangingfrom sensornetworksto semi-conductor design.