We discuss processes and approaches in the field of computing science such as Cellular Automata, Algorithmic Information Theory and Game of Life and explore their similarities with how GENOME creates the brain over time. We then shift the focus of discussion to artificial intelligence and explore ideas that the researchers in the field artificial intelligence can borrow from the research in the field of neuroscience. We also discuss the development of the biological brain by GNOME over time. No Cloning Theorem with essential Mathematics and Physics 1. We also look at the nature vs nurture debate and discuss examples of butterflies that take multigenerational trip, and scout bees that inform the bees in the hive the location and distance of the food. We then discuss “the information problem” that how we get information in the brain that makes it intelligent. Professor Hiesigner suggests in the book that to understand what makes a neural network intelligent we must find the answer to the question: is this connectivity or is this learning that makes a neural network intelligent we look into this argument. We start our conversation by reviewing the fascinating research that led to the development of neural theory. In this episode of Bridging the Gaps, I speak with professor Peter Robin Hiesinger about the relationship between what we know about the development and working of biological brains and the approaches used to design artificial intelligence systems. It may be possible to make copies if we relax some of the requirements (exactness, what kinds of states we can. More precisely, it says we cant make an exact copy of an arbitrary, unknown quantum state.This was first revealed by Wootters and Zurek in 1982. In the next section we introduce the necessary denitions and results needed to prove Theorem 1. But in the quantum world, the laws of physics impose a severe restriction on copying: It is impossible to make a perfect copy. Theorem 1 The ErdosFaberLov´asz conjecture is true if and only if for ev- ery instance H of the conjecture, the relational structure (VH, RH ) determines a maximal partial clone. People gather, copy, and distribute information all the time. The theorem postulates an that an object cannot be duplicated while in a quantum state, thus making human teleportation impossible. The no cloning theorem states that it is impossible to make an exact copy of something at the quantum level while retaining the original. People gather, copy, and distribute information all the time but in the quantum world, the laws of physics impose a severe restriction on copying: It is impossible to make a perfect copy of an unknown state. Are there ideas that researchers in the field of artificial intelligence borrow from their counterparts in the field of neuroscience? Can a better understanding of the development and working of the biological brain lead to the development of improved AI? In his book “The Self-Assembling Brain: How Neural Networks Grow Smarter” professor Peter Robin Hiesinger explores stories of both fields exploring the historical and modern approaches. Minute Physics has joined the ongoing conversation about transporters and logical paradoxes with a really quick and concise explanation of the no-cloning theorem. Remote: Compressing objects: 100% (807310/807310), done.How does a network of individual neural cells become a brain? How does a neural network learn, hold information and exhibit intelligence? While neurobiologists study how nature achieves this feat, computer scientists interested in artificial intelligence attempt to achieve it through technology. POST git-upload-pack (gzip 25015 to 12570 bytes) (2) Change to https protocol, it worked: # git clone -b perf/core -verbose (1) According to suggestion, using -verbose flag, but it doesn't show more information: # git clone git:///pub/scm/linux/kernel/git/acme/linux -b perf/core -verboseĬonnecting to (port 9418). But after client sent request using git smart protocol, there was no any response. We can see the TCP connection was established. Use the tcpdump and Wireshark to check the captured packets:
I try to clone a Linux branch from git:// to local machine: # git clone git:///pub/scm/linux/kernel/git/acme/linux -b perf/coreīut there is no response.