Intelligent Computer: Beginning
By wJones Company
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Podcast Description
The Purpose of this series is to introduce the Intelligent Computer and discuss various topics from the Amazing World of Stored Purpose technology. Stored Purpose is the umbrella name we have given to all Intelligent Computer technologies. It includes detailed mechanics of intelligence including the information, processes and instantiation methods necessary to build very smart systems. The Intelligent Computer is a broad, new area of technology. We think it offers an interesting story and over the next few months we hope you will join us as we share it. But be forewarned. As we explain how intelligent systems work, we will often draw comparisons with biological systems, including topics that may challenge firmly held beliefs about philosophy, evolution, existence, and religion. Show notes, details and high definition versions of each podcast are available online at www.wjones.com/Podcast
| Name | Description | Released | Price | ||
|---|---|---|---|---|---|
| 1 | VideoComponents of an Intelligent Machine | A Stored Purpose system is based upon a native intelligence derived from two architectures, the existence model, called Ema and the construction model, called Mica. Those two architectural models, when superimposed, make complex intelligent entities possible. The two designs that make Stored Purpose intelligent machines possible are the: ▪ Existence Model Architecture (Ema) - Ema defines a fundamental logical model of intelligent existence and can be used to create complete “single cell” intelligent entities. Each cell, or Ema entity is an atomic intelligence unit, possessing the minimum requirements for intelligence. ▪ Multi-level Intelligent Cellular Architecture (Mica) - Mica defines physical construction for complex Stored Purpose entities. It combines multiple Ema cells, as a single cluster or as multiple clusters, to make systems of varying complexity. Existence Model Architecture What separates intelligent systems is that they Exist, i.e. they process a function to sustain a definition of their existence. That function of existence requires two parts: 1 A definition of the Self which we call Identity, and 2 Processes to instantiate and maintain the Self … even when the entity and it’s surroundings, called “context” change. For intelligent systems, we define a third requirement, … an ability to execute a Purpose other than maintain Self. Yet meeting requirement, and thus serving some additional Purpose in the ecosystem … seems an unavoidable and automatic consequence of simply executing the first two parts of Existence. As such, there is no need for additional design components to perform this function. We developed a method to define Identity, that we call the Platonic Form. We also created an algorithm that that enables a defined entity to interact with a physical world via technology, and align it’s measured and planned states with its Identity that we call the General Intelligence Architecture, or Gia. Together, the Platonic Form and Gia, when processed in a special type of container, called a Soma, make possible an intelligent entity. The Platonic Form is created in a format we call the purpose hypergraph. It combines contextual fabric with form subgraphs to make possible the storage of the “essence” of a symbol. Platonic Forms combine other Platonic Forms to define symbols of great complexity. A Form that defines a “plank”, can be used as the basis of a Form that defines a “door.” A rectangle can be used to define a box which can in turn be used to define a room which can be used to define a bathroom. The General Intelligence Algorithm is the outcome of seven processes. This processes constantly compose the entity’s Identity definition (#1) into a type of memory called Plan (#2). Plan memory can be located in one physical device or propagated across the many physical devices of a metacomputer. Once Forms are in Plan, an active or conscious system will continuously process the Plan data, just before time Now, to prepare for Reality. At time Now, which is Reality, the system will sense (#4) and control (#3) all that has been planned with its states already pre-set to the values planned. This means that if a Stored Purpose system plans right, it doesn’t really need to do anything at time Now, because by executing Plan, it has already loaded the data to be sensed and executed the shape of motive effort need to influence the physical world. When there is a difference found between Plan and measured data, then outcomes five, six and seven of Gia kick in. These are Goal Pursuit (#5), Understanding (#6), and Learning (#7). Goal Pursuit is simply the re-alignment of the entity’s measured Self with Identity. Understanding is simply a measure of the difference or impact to Plan caused by an event measured or in Plan, caused by Goal Pursuit. Finally Learning is simply readjusting the system’s Forms as might me needed due to prediction failure, or due to | 7/13/10 | Free | View In iTunes |
| 2 | VideoA Better Planet - Can studying Stored Purpose machine intelligence help? | The new science of Machine Intelligence gives us an opportunity to develop and thus learn rules that can enable thousands of intelligent agent entities to execute purpose, thrive and coexist within a system. Those same rules might help benefit us as we learn to work with nature, helping us ultimately become better stewards of our land. The Existence Model Architecture or Ema, defines fundamental intelligence for agents within a Stored Purpose system. It includes both Information via "Platonic Forms" and processing via the General Intelligence Algorithm "Gia," that enable each agent to serve a Purpose defined by its Identity. Much of that Identity … the aggregate Goals that comprise each Purpose, will be to balance the Purpose of other entities within the system. For example, if there is a lawn maintenance bot which Purpose is to add water to the hospital lawn to make grass grow … there must be another bot with Purpose to cut the grass to keep it short. Similarly, if a new customer interest generates popularity in a product no longer produced, there must be counter effort to find inventory or resume production. We see the same balance on a simple level in human systems where a new baby's Purpose, which is largely to eat, grow, and poop, must be met by other Purpose to acquire food, to feed the baby, and to change its diapers. It is in understanding that such balance is pervasive in any sustainable system, and that conservation of mass and energy laws ultimately guarantee such balance, that you begin to realize that "growth" in a Purpose oriented system is over the long term not in the physical domain. Unbalanced growth over a long term is considered a negative event, and has a special name … cancer. So where is the net gain, in Ema based, Purpose oriented systems? There is gain within each system, in a fashion similar to inductance, such that when Purpose is fulfilled, gain is achieved, but not necessarily in the direction of effort of any one agent. Stored Purpose offers a look into the science of intelligent ecosystems, the study of information, processes, guides and controls that make systems of diverse intelligent entities possible. It provides an understanding of the prioritization and curtailment schemes that must exist to keep such a system alive and running for extended periods of time. Through its study, stored purpose can invariably grant insight into how our own system works. Questions as to why there must be viruses and bacteria, how a system of zero waste is possible, and why such a system is essential, are met with vivid new answers. We believe it is in those answers and the study of the rules of our ecosystem, that people may find Purpose as stewards of this planet … helping hands that might assist, rather than hinder the planet's maker, over the next billion years. Learn more at http://www.wjones.com/podcasts Credits Stored Purpose and the rules of making a better planet produced by wJones Media Music Intro “Blame It On Me” Haitz “Claire de Lune” written by Claude Debussy, performed by Laura Sullivan all music is licensed for use in this podcast | 7/13/10 | Free | View In iTunes |
| 3 | VideoTruth and Context Part 2 of 3 - When Computers Understand Us | We had four main goals for the new computer: 1. Understand people and organizations well enough to anticipate their needs and obligations, 2. Suggest and offer broad information and automation services that follow their rules, 3. Orchestrate harmonious activity across many fixed and mobile devices of a business, hospital, school or home, and 4. Compute efficient means for multiple agents to meet goals that consider nuanced responsibilities, resources and constraints. We came to realize that the ability to determine the right and wrong states at a time, place and circumstance was a first step towards computable Understanding, enabling man made devices to know us, and anticipate our needs. We had to expand a science to develop a way to map time, place and circumstance without ambiguity. Think about the gadgets you carry - they have gps, so they know where you are, they have technologies like bluetooth, that detect which objects you are near, they receive and send all your verbal and written communications. With stored purpose computing, we now know how to give the man made devices collecting all that information a purpose to care about you, and your Purpose. As the computer takes all this input and navigates context with you, it will constantly predict ahead about what you care about and what you might need. If it can help, it will, because that will be its Purpose. We think having man made agents, that understand you, can work with you when making cake, building motorcycles, writing a report, or managing conference rooms is the future of technology. We also think the science that enables a man made device to understand a person, might help people, better understand people and nature. Learn more at http://www.wjones.com/podcasts Credits produced by wJones Media Music “You And I (Instrumental)” written and performed by The B Flat Project “Empire (Imperial demo)” on Imperial f.f.r.r. performed by Unrest “Summerland (Instrumental)” on The Woodlands performed by The Woodlands all music licensed for use in this podcast | 7/13/10 | Free | View In iTunes |
| 4 | VideoTruth and Context Part 1 of 3 - Intro to Context | What is Truth? What is Context? Podcast Guide Part 1: Show #5 - Intro to Context (4 min) Part 2: Show #6 - Discussion (10 min) Part 3: Show #7 - eBook - Truth (10 min) When man first attempted “Artificial” Intelligence, programs were written to learn facts A “fact” was written as: male sibling of parent is an uncle The idea was that a computer could be taught to understand that if your father John has a brother Paul, then Paul is your Uncle. None of these programs ever enabled a computer to understand anything But what is a fact, really? “father’s brother is your uncle” is not a computable fact How can that be? Know any Catholics? to make a Fact computable, it must stay true even in changing circumstances so we developed a way to link truth to all points of a cycle of constant contextual variation ... ... a cycle that defines the existence of a computation that may be the lifespan of an intelligent entity ... a way to define the true meaning of a complex symbol like Father, which in context may mean Dad, Priest, or even God ... making it possible for an Intelligence to understand intended meaning, whenever and wherever a symbol is used. We call the loci of multi-dimensional symbols that define an Identity, Context Space and its information store, Contextual Fabric Brother -- (Man -- Parent) is a good point in Context Space to store a Form for “Uncle” Thus far, we have only discovered one way to design an intelligent entity ... ... that is to store all parts of Identity ... Symbols, Goals, and Purpose in a Contextual Fabric ... using Purpose hypergraphs After compiling the first Contextual Fabric, we found we weren’t the first unable to find a better way than the hypergraph ... Credits produced by wJones Media Music “Stronger” written and performed by Eric Liniger on Club Bangers “Tell Me That the World is Pink and Not Blue” on My Favorite Letter is Blue written & performed by Uni and Her Ukelele all music licensed for use in this podcast © 2010 wJones & Company, Inc. All rights reserved www.wjones.com | 6/24/10 | Free | View In iTunes |
| 5 | VideowJones Intro - Intelligent Computer | What is wJones? What is Stored Purpose computing? Back in 1950, Alan Turing, the inventor of computer program logic, predicted that by the year 2000, people would build intelligent machines … computers able to think like people Before machines could be made intelligent, much invention was required ... Inventions: a General Intelligence Algorithm to store and process understanding Inventions: Metacomputer technology to extend the outcomes of intelligent thought to physical devices Inventions: Platonic Forms to define Identity, Purpose and Goals for multi-agent systems These inventions and more, are the work of wJones We call the science of our work Stored Purpose computing We develop and promote Stored Purpose, advising companies and governments considering development and regulation of next generation machines, enterprise operating systems, infrastructure, and biotechnology solutions We think Stored Purpose computing opens a door to a world of pure imagination Here, we share what we see behind that door The Intelligent Computer Podcast Available at: www.wjones.com/podcast and on YouTube and iTunes Credits Intelligent Computer Podcast Trailer produced by wJones Media Music Intro “Big Buck Bunny Theme” (c) copyright Blender Foundation | www.bigbuckbunny.org Presentation “Claire de Lune” written by Claude Debussy, performed by Laura Sullivan licensed for use in this podcast © 2010 wJones & Company, Inc. All rights reserved www.wjones.com | 6/24/10 | Free | View In iTunes |
| 6 | VideoWhat is Stored Purpose? Part 1 of 4 - Stored Purpose to Symbolic Storage | In this series of four (4) ten minute (10 min) podcasts, we introduce machine intelligence and many topics related to the Intelligent Computer. This series will teach you to speak Stored Purpose in forty minutes or less. Stored purpose is an expansive framework, the first top down redesign of business and consumer technology since the stored program architecture was introduced in 1943. Although radical in its use of an Existence Model as its basis, stored purpose is practical in its approach of making new algorithms compatible with existing commercial hardware. This podcast will highlight several applications in machine science, enterprise technology, infrastructure and life science. High definition videos of this podcast are available at www.wjones.com/Podcast Topics Discussed in This Episode: Figure - Ema Implementation Stored Purpose the mechanics of intelligence Figure - Existence Model Architecture Ema the cycle of being Figure - General Intelligence Algorithm Gia the intelligence processing cycle Figure - Multi-level Intelligent Cellular Architecture Mica the construction cycle Figure - Basic Concepts Intelligence the nature of understanding Figure - Gia Outcomes Intelligence the cycle of understanding Figure - Core Concepts Intelligence the nature of understanding Figure - Existence Model Function Goal Pursuit aligning states of Self with Identity Figure - Goal Base State Goal Pursuit Goal extends base Form Figure - Learning Function Tree Learning same generation refining and modifying of Self Figure - Stored Purpose + Biology Existence Model Alignment the computable analog Figure - Hybrid Biological & Mechanical Tools Technology how intelligence defines tools Figure - Sensory Process Contextual Cognition how intelligence combines Forms, prediction and measured states to understand Figure - Form Context Platonic Forms Form link to contextual fabric Figure - Form Components Platonic Forms how Self is defined Figure - Form Storage Platonic Forms agent genome Figure - Scene Processing Symbolic Storage anything ever known can be stored as a Platonic Form | 6/23/10 | Free | View In iTunes |
| 7 | VideoWhat is Stored Purpose? Part 2 of 4 - Goal Forms as Music Notation to Agent Identity | In this series of four (4) ten minute (10 min) podcasts, we introduce machine intelligence and many topics related to the Intelligent Computer. This series will teach you to speak Stored Purpose in forty minutes or less. Stored purpose is an expansive framework, the first top down redesign of business and consumer technology since the stored program architecture was introduced in 1943. Although radical in its use of an Existence Model as its basis, stored purpose is practical in its approach of making new algorithms compatible with existing commercial hardware. This podcast will highlight several applications in machine science, enterprise technology, infrastructure and life science. High definition videos of this podcast are available at www.wjones.com/Podcast Topics Discussed in This Episode: Figure - Goal Form Context as Music Notation Goal Pursuit Goal extends base Form Figure - Form Design using Gia Music Notation Shape Graphs how music can define shapes Figure - Form Ancestry Platonic Forms how Identity is recorded Figure - Cellular Instrument Fundamentals Metacomputer Stored Purpose instantiated Figure - IPv6 and 802.15.4 Metacomputer Communications low bandwidth low latency communications Figure - Reference Metacomputer Architecture Automation Appliance model for enterprise and infrastructure intelligent systems Figure - Agent Logical Environments Symbolic Network logical host for Gia Figure - Agent Logic Organization Identity the logical Self | 5/28/10 | Free | View In iTunes |
| 8 | VideoWhat is Stored Purpose? Part 3 of 4 - Curtailment Logic to User Interface | In this series of four (4) ten minute (10 min) podcasts, we introduce machine intelligence and many topics related to the Intelligent Computer. This series will teach you to speak Stored Purpose in forty minutes or less. Stored purpose is an expansive framework, the first top down redesign of business and consumer technology since the stored program architecture was introduced in 1943. Although radical in its use of an Existence Model as its basis, stored purpose is practical in its approach of making new algorithms compatible with existing commercial hardware. This podcast will highlight several applications in machine science, enterprise technology, infrastructure and life science. High definition videos of this podcast are available at www.wjones.com/Podcast Topics Discussed in This Episode: Figure - Agent Logic and Curtailment Prioritization Curtailment Logic ensuring safety Figure - Service Fabric Hypergraph Assistent Agent mini-model of a client's Identity Figure - O.Common Purpose Regions Common Sense Purpose that facilitates communication and efficiency Figure - Agency in the Home Housekeeper roles for nexus class agents in home management Figure - Agent Constructed Canvas User Interface Desktop human - agent interaction Figure - Agent Constructed Canvas User Interface Mobile human - agent interaction | 5/28/10 | Free | View In iTunes |
| 9 | VideoWhat is Stored Purpose? Part 4 of 4 - Agent Mobility to Governance | In this series of four (4) ten minute (10 min) podcasts, we introduce machine intelligence and many topics related to the Intelligent Computer. This series will teach you to speak Stored Purpose in forty minutes or less. Stored purpose is an expansive framework, the first top down redesign of business and consumer technology since the stored program architecture was introduced in 1943. Although radical in its use of an Existence Model as its basis, stored purpose is practical in its approach of making new algorithms compatible with existing commercial hardware. This podcast will highlight several applications in machine science, enterprise technology, infrastructure and life science. High definition videos of this podcast are available at www.wjones.com/Podcast Topics Discussed in This Episode: Figure - Agent Mobility Agency how your personal agent will traverse networks with you Figure - Single Client Agent Based System Agency how your personal agent will help drive your applications Figure - Electronic Key, ePaper, Smart Pen & Journal Compatible Technology Gia enabling the tools we use Figure - Philosophical Timeline Philosophy a basis for pure forms & concepts Figure - Stored Program Computers End of Life Stored Program a brief history of the von Neumann, Eckert, Mauchly architecture Figure - Complexity in Enterprise Architectures Governance how stored program creates geometric complexity growth in organizations | 5/28/10 | Free | View In iTunes |
| Total: 9 Episodes |
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