Synopsis: The arrival of homo sapiens on Earth amounted to a singularity for its ecosystems, a transition that dramatically changed the distribution and interaction of living species within a relatively short amount of time. Such transitions are not unprecedented during the evolution of life, but machine intelligence represents a new phenomenon: for the first time, there are agents on earth that are not part of the biosphere. Instead of competing for a niche in the ecosystems of living systems, AI might compete with life itself.
How can we understand agency in the context of the cooperation and competition between AI, humans and other organisms?
AI News includes a breakthrough in brain computer interface tech that allows brain to brain communication between two operators, a modular, stackable AI chip for edge computing and consumers, and a spiking neuron array to allow robots to sense size, temperature, and weights when touching objects.
AI News Timestamps: 0:00 BCI Enables Brain-To-Brain Communication. 2:58 Edge Computing Modular AI Chip. 6:10 Robot Touch For Size, Temperature, & Weights.
Abstract: Superintelligence, the next phase beyond today’s narrow AI and tomorrow’s AGI, almost intrinsically evades our attempts at detailed comprehension. Yet very different perspectives on superintelligence exist today and have concrete influence on thinking about matters ranging from AGI architectures to technology regulation. One paradigm considers superintelligences as resembling modern deep reinforcement learning systems, obsessively concerned with optimizing particular goal functions. Another considers superintelligences as open-ended, complex evolving systems, ongoingly balancing drives. toward individuation and radical self-transcendence in a paraconsistent way. In this talk I will argue that the open-ended conception of superintelligence is both more desirable and more realistic, and will discuss how concrete work being done today on projects like OpenCog Hyperon, SingularityNET and Hypercycle potentially paves the way for a path through beneficial decentralized integrative AGI and on to open-ended superintelligence and ultimately the Singularity.
Bio: In May 2007, Goertzel spoke at a Google tech talk about his approach to creating artificial general intelligence. He defines intelligence as the ability to detect patterns in the world and in the agent itself, measurable in terms of emergent behavior of “achieving complex goals in complex environments”. A “baby-like” artificial intelligence is initialized, then trained as an agent in a simulated or virtual world such as Second Life to produce a more powerful intelligence. Knowledge is represented in a network whose nodes and links carry probabilistic truth values as well as “attention values”, with the attention values resembling the weights in a neural network. Several algorithms operate on this network, the central one being a combination of a probabilistic inference engine and a custom version of evolutionary programming.
New artificial skin for bionic arm or AI robot | breakthrough photonic chip processes 2 billion images per second without memory device.
AI news includes new artificial skin to let AI robot, bionic arm or prosthetic limb feel with extreme touch sensitivity. New photonic chip allows AI to process and classify 2 billion images per second without needing storage device.
Jesper AndersonNo. Nobody can “leave their body”. There is no evidence what so ever that this is possible.
What can be done is, copy many of your attributes and create a copy which behaves very much like you. But that’s simply an advanced method of writing a book. I… See more.
Craig Everett JonesAlthough neurons are much like transistors, our emotions are not just ones and zeroes. We feel things in our gut. I think singularity fans are grossly underestimating the dependencies between human consciousness and organic physiology. And, your b… See more.
Experts believe AGI will occur around 2050, and plausibly sooner. You can see above their estimates regarding specific AI achievements: passing the Turing test, passing third grade, accomplishing Nobel worthy scientific breakthroughs and achieving superhuman intelligence.
An international team which includes University of Manchester scientists has for the first time demonstrated that nerve signals are exchanged between clogged up arteries and the brain.
The discovery of the previously unknown electrical circuit is a breakthrough in our understanding of atherosclerosis, a potentially deadly disease where plaques form on the innermost layer of arteries.
The study of mice found that new nerve bundles are formed on the outer layer of where the artery is diseased, so the brain can detect where the damage is and communicate with it.
But I am a visionary by the most grounded, neutral definition of the word (and so are you, undoubtedly):
By this definition, a “visionary” is just a person who regularly envisions the future and feels a deep need to design it with care, at times with such compulsive passion that it risks defining one on a core level and consuming one with endless details of a reality which has yet to formally occur.
In my inner midnight rambles, when this archetype is in full moonlit bloom, I envision our little enclave of ultra-talented, idiosyncratic, fun-loving Austin artist family winding up in some kind of post-apocalyptic village together, almost as if we’ve been training our entire lives for this…