There’s a lot going on, both sides of the Atlantic, and over in USA we have been active with many individuals and groups involved in Healthcare and Medicine, and also in Climate Action and Response, particularly. Increasingly, things are happening based upon our earlier initiatives including in EU and Russia during 2017-2018. Now there is a totally new organization (MIRNOVA Institute for Creative Science). Prior entities in Europe have been dissolved (or had never been formalized), but the Work continues and with renewed vigor by all involved!
MIRNOVA Institute for Creative Science (MICIS) is in the process of establishing a formal board of directors and executive team. We welcome your interest on all levels!
The new organization has acquired the domain, mirnova.org, and this website portal. This website here hasn’t been updated in awhile, but “patience-please!” Just contact us. Dr. D (Martin) is accessible here:
M. Dudziak, Science Mentor and Chief Librarian
+1 (231) 492-8301 (voice, sms, WhatsApp, Viber)
+1 (505) 926-1399 (internet voice line: message, alt-voice)
* These both have a big positive impact on Robotics – especially for Space, Remote and Extreme Environments, and Cooperative Multi-Agent Robotics
and certainly the S.T.E.A.M. Seminars and Workshops!
Read this succinct introduction. Contact us to learn more about:
— being a host for Seminar Events conducted at your institution (company, university, agency, NGO).
— attending and participating in one (onsite and/or online).
We all here are very proud and happy for Oussama Baderkane who had his sucessful presentation and thesis defense at L’Ecole Normale Supérieure de l’Enseignement Technique (ENSET) de Mohammedia (within Université Hassan II de Casablanca).
Oussama completed excellent and wonderful work on the Mirnova Team in the design and implementation of the S-Water module and basic architecture underlying AgroIntel. Here (below) are a few photos from his presentation at the University. He worked on AgroIntel hardware and software implementation and this was also in conjunction with his academic program for the Master’s Degree in Distributed Information systems.
This follows upon Oussama and his team winning the Grand Prize of the Franco-Moroccan Challenge of Entrepreneurship. The final was held at the Hotel Hyatt Regency Casablanca in the presence of the Minister of Higher Education.
Indeed, the Grand Prize was awarded to the IA for business team for its project Green Eyes, which puts new technologies at the service of precision farming for optimization and better agricultural performance. Hafsa Rifki from ENA Rabat, Mohamed Boussaboun from arts and crafts- Lille-, Baba Mbaye, PhD student CIFRE, Adrienne Plantureux from Emlyon and Osama Badrakhane from ENSET Mohammedia.
Ten Discoveries, Advances, Applications, and Assertions about AI, Agriculture, Asteroids and Quantum Behaviors including Computers and Populations
Connecting the Dots
Navigating the Labyrinth
Solving Deep Problems Better
Profiting Today from Tomorrow
Version 1.0 10.June.2018
Mirnova Institute for Creative and Innovative Science
These ten statements are here to provide the most succinct summary and introduction possible to what can be among the most exciting new developments in science and technology. We believe these integrations of people and research are contributing to something very valuable for our world.
§1 We take, as a fundamental basis of what we are doing, the following points:
• Certain “extreme complex systems” (XCS) require a significantly new type of computing architecture, one that appropriately incorporates new, trans-Turing methods for mapping and modeling very large and uncertain state-spaces into compute-spaces that can be employed in reasonable time and certainty.
• Such computing architectures go beyond the traditional Turing-machine model of computation which is built upon the focus of algorithms constructed of instruction for numerical calculations. The new architectures may be engineered using quantum computing methods, but engineered differently than in the manner of current Turing-type, qubit-based, numerical-intensive quantum computers. These machines are not exclusively of one modality of computation but are heterogeneous in design and function. We term this the Generalized Computing Machine (GCM).
• Developing such GCM systems takes time, open-ended resources, diverse and open minds and viewpoints, multidisciplinary skills, and a set of proper testbeds for continuous and consistent acquisition of data and comparison of modeling results in order to understand and refine the design of such new systems.
• In parallel, there are XCS problems in the present world that simultaneously demand attention and deliverable solutions and offer opportunities for economic profitability and growth to those who can master the problems and deliver reasonable solutions. These XCS problems are particularly in four sectors of life and business: agriculture, energy, environment, and space.
• The optimal path for developing a GCM that will perform well on different XCS and be sufficiently robust and reliable from the perspective of both systems engineering and economics is a path that proceeds hand-in-hand with well-understood technologies that operate within the system space of such XCS. For these reasons we have concentrated upon a few closely related XCS problems that can be best be addressed together, in parallel with the development of the GCM.
• The chosen XCS problems should also be such that there is a major need within society and substantive opportunities for economic growth. Thus we have focused upon agriculture, energy, environment, and space, beginning with agriculture and proceeding forward as all components of technology mature.
§2 We focus first upon control and optimization in agriculture and energy. We have proceeded to design and implement technology in the form of both software and electromechanical modules which serve principally those functions, but with capabilities for fully open integration with many other digital and analog systems, and not only within the agriculture and energy sectors.
All of this provides a basis for implementing a global base for information acquisition, analysis, evaluation and prediction, along with the necessary social and economic structures for commercial expansion and diversification. Beginning with farming and the introduction of intelligent control and optimization, we establish what is needed in terms of economic growth and the cumulative information and knowledge bases required to model, simulate, and ultimately field-test algorithms and systems leading up to GCM type machines.
Through this global base, consisting of thousands, then millions, and progressively, multiple billions of users, which offers distributed network and cloud-computing capabilities, we are able to perform modeling and simulation of extreme complex systems of a type that cannot be effectively processed on conventional computers but for which we can begin using precisely those conventional machines.
This leads directly into the domain of our fundamental research in quantum computing and the use of devices that operate on principles other than conventional bit-byte-register Turing machine computers. Of the latter, there are many so-called quantum computers. Of the former, there are very few and we are developing one such class of machine. Refinement and advancement of our quantum computing technologies, coupled with the distributed network systems, leads us toward the capability of systems that can perform many other extremely complex tasks. Some of these are related to conventional industry and finance, others to emergency response and management, others to space exploration and industrialization, others to medicine and healthcare.
We begin with agriculture because it is:
• a problem that is present at hand, demanding, and for which we have the resources to provide solutions
• an industry that is a requirement, not a luxury, for all people, everywhere
• a business where we can simultaneously make profits and do research leading to more complex and difficult XCS problems such as in energy, environment and space.
§3 EcoVita (comprising AgroIntel, IntelErgy, IntelEco subsystems) provides the foundation for an evolutionary leap forward in the following activities, markets, and business sectors. These commence with homes, small farms, small consumer-oriented businesses. These are initially growing in the vast rural and low-infrastructure areas of the world that are less developed economically and technologically than those countries which have dominated internet, mobile, and broadband markets thus far.
• Functional purposive task-directed social networking
• Internet appliances (“IoT”) for functional use in home, yard, neighborhood, farm, not only as personal gadgetry with a short-duration interest span for consumers
• Cloud-computing for individuals and communities who previously were never considered as significant computer, internet and e-commerce users
• Distributed network computing services of a type that can enable large, amorphous, asynchronous network-fields of computing resources including mobile devices and modules to provide the computing power, sustainability and security for many business and consumer functions (e.g., blockchain transactions and cryptocurrency mining)
• The technological and informational base and groundwork for a global-service Prediction Engine that is the predictive-analytics analog of conventional, historical search engines (e.g., Google).
§4 The growing agri-energy-environment market comprises initially hundreds of millions and unquestionably – with sustained, direct, inevitable growth – billions of people, including the vast majority of persons who are active with mobile and internet technology use presently. Geographically, this is Eurasia, all of it, and Africa, and South America, and the Pacific nations. Economically, it is dominated by SCO, ASEA, and BRICS.
AgroIntel and the other EcoVita (EVA) systems operate as networks of amorphous and heterogeneous processing. This is true across all EVA modules regardless of their initial or usual focus of application (e.g., intelligent farming). Each module is capable of taking on additional computing tasks (technically and semantically unrelated to any agric/energy tasks, for instance) that can be distributed (mapped, farmed-out) among the nodes of the network. These tasks can be diverse and not directly related to anything pertaining to specific, explicit agriculture or energy tasks that define a given module’s primary purposes.
Unlike personal computers and mobile devices, EVA is designed to conduct distributed network computing that is unrelated to specific fundamental tasks such as concern the energy, food, and environment needs of homes, gardens, farms, and other specific regional operations. What is the purpose and advantage of this capability? It all comes down to applications that many people and companies – including clients and customers of the EVA network owner-operators (e.g., farmers, ordinary householders) – want to run in reliable, distributed, ergonomic and economical ways and means.
Here is a concise statement:
EcoVita provides stochastic, distributed, heterogeneous processing networks that enable control of robots and agents in diversified, cooperative, asynchronous tasks. Such tasks include the employment of amorphous parts of the networks for assignable distributed multi-task processing. Examples of such tasks include blockchain and data mining including cryptocurrency-mining, simulation of massively large-scale events, simulated quantum algorithm computation, large-scale searches (e.g., molecular modeling in pharmacology), cybersecurity, and physical security.
§5 Qubit-based quantum computing challenges from decoherence of the qubit arrays can be assisted by use of different materials with specific constructive resonant frequency ranges that support rather than hinder the duration of entangled-state coherence. Such constructive frequencies have been studied extensively and are linked as well with cellular biology models of basic metabolism. This attention to the type of materials used in qubit electronics is particularly valuable for any type of QTC (quantum Turing-machine computer) because the coherence state must be maintained long enough for the various computations to proceed. Reliance upon extensive – and expensive, in both cost and operational complications – decoherence schemes that essentially employ additional qubit arrays in order to attempt preservation of the “kernel” coherence state, are fundamentally inhibitory to expansive and widespread use of the QTC type machines.
This approach to coherence is also applicable to non-qubit-based, trans-Turing quantum computing such as topological information resonance (TIR) models. Coherence and durability in molecular topologies is important for TIR performance to be a reliable means of mapping high-dimension state-spaces into molecular configurations which must then be maintained sufficiently for use in the topological computation processes.
§6 There is a direct connection and logical path from smart farming, and smart energy to Space, especially through those components involving robotics and multi-agent-based cybernetics. These lead in a straight path to the design of Space-based applications especially for tasks of these types:
• mechanical assembly of construction components
• mining and processing of geological materials
• asteroid manipulations for both mining and for deterrence of collisions and impacts
The technical plan for AgroIntel development, particularly with respect to new types of self-assembling, self-reconfigurable, multi-arm robots, cooperative n-axis robot teams, the manipulation of irregular, ill-formed and uncertain physical objects, and similar tasks, is based upon a common goal set that is not limited to only agriculture. The goals are to design a set of instruments and machines, and the control systems for their remote and autonomous operation, that will be translatable (functionally mappable) and convertible in a straightforward way from Earth-based operations in the agricultural setting to Space-based operations beginning with asteroids in near-earth proximity.
§7 Acquisition of massive streams of information within an EVA setting provides what is necessary for implementation of an intelligent prediction engine. We have begun building and refining the SELDON Prediction Engine logic using agriculture and energy information and then extending it to other areas of knowledge. The first testbed for a Prediction Engine is with farm operations, and then we move to energy and environmental management and thence into space-based tasks. The Prediction Engine needs the testbed platform that AgroIntel and other systems provide, and these in turn will benefit from the ability to make increasing intelligent forecasts and recommendations. The training of these systems will enable expansion of the prediction capabilities to other tasks beyond agriculture, energy and environment, in a more general manner such as seen in the historical evolution of search engines.
§8 Inherent within the application of EcoVita and similar technology is the human factor. This is the combined requirement and opportunity of engaging people in a different way than has ever been done before using computing and personal electronics. This is something in which we are engaged that involves both data and knowledge structures and also physical devices including cubits, qoins, and EVA modules. This will lead to consumer-use products such as CryptoFutures for option-based purchasing and product-based investments by mass consumers into producer-supplier-distributor companies). The net result is the transformation of social internet networking from merely “socializing” and into directed, purposive, practical functions. In turn this enhances engagement of people with each other in co-creative, inventive, and commercially viable activities.
§9 Building applications that can be used for everyday functions by the majority of people will, combined with more versatile and personalized education methods that begin with young children of diverse interests and capabilities and proceed into vocational training for adults, be a catalyst for dissolving the “digital divide” within society. Our approach will make the learning and use of the technologies attractive from an aesthetic perspective, generate more interest and attention by that majority of people in how they perform tasks. Accuracy, completeness, innovation and quality will receive more attention, and the results will be beneficial to all parties. This is a fundamental goal in everything we do. This is why we use as one of our mottos,
§10 Will we read, in the next few years, article with titles such as:
“Smart Farmers build Global Network used in field-testing Next Generation of Quantum Computer”
“Can Farmers – and Farms – and the networks of the devices they use to make their farms smarter and more efficient – Crack all sorts of encryption? Mine bitcoins? Defend the planet from rogue asteroids? Discover new medicines? Do quantum computing? Can they do all this at the same time as managing the farm, growing and harvesting the crops?”
Yes. Certainly. Something of the sort, definitely.
This is what we have now and can deliver to people. The photos below are, of course, the demonstrator system, larger-scale in size and transparent in order to show baic components. This module is designed to communicate and share control with other modules including UAV drones, and it has the capability for distributed network (“cloud”) processing. Many of the basic CUBIT functions can be loaded and running on these modules, and this is Only the Beginning… )))
We are producing Cues that are many things to do with knowledge acquisition and construction. We have a lot written here and in plenty of papers and documents that you can obtain, read, and discuss. We have courses and events underway.
Now the momentum is building for something new and very special.
People want Visuals. People want and need better explanation, elucidation, Answers, about some things in STEM and not only just to “be informed” in a casual sense, althought there is absolutely nothing wrong with that in its proper time and place.
But there are wants and needs and opportunities, connected with so many things that matter deeply to people as individuals, as groups, as university teams, as companies, as communities. Questions about what really is going on in that Planck Scale of the universe that we hear called “quantum” left and right. Questions about quantum technologies of several types and sorts – information and signaling, computing, metrology, simulation. Questions about how it can turn into applications for health and medicine, for energy, for agriculture, for virtually any application where we have ever used the word “computer” or “communication.”
And questions about matters that some people used to think were only the purvey and interest-space for theoretical physicists and mathematicians and a few other supposedly “way out there” people. You know, the ones with long scraggly hair or beards talking mathematics and all those strange words like “qubit” and “superposition” and “entanglement.”
Well, we at MIRNOVA decided (when a Great Big Quantum Lightbulb lit up, all on its own, in fact – but that’s another story altogether!) – we decided to
And actually, probably a SERIES, not just one.
But they’re going to be Documentaries. But a little (or maybe a lot) different from just about any documentary that has ever been made, certainly about “Science” topics.
We don’t have a name for the first film, much less any of the others that will follow.
But the first one certainly has something to do with the letter “Q” and with quantum physics, and some very interesting New Knowledge that people have been discovering, creating, inventing and making-up. (Yes – you got that right – “making up” Knowledge. It happens, you know. All the time. Not only in science. Not only in “STEM.” But we’ll get way more into all of that in the films. The movies. The documentaries that will also have Action characters and Heroes and Heroines in some Cool Adventures. Way Down there in the Q-space, and Way Up there in the Cosmos. It’s all quite connected, you know.
We like to say, it’s all Unified, in fact. Unified, Invariant. “Quantum” and “Relativity” and everything that comes along with that.
Seriously. Totally seriously, clearly, accurately, and coherently. That’s the way everything should be in communications, Science and Technology included, absolutely.
The title of this post states in one phrase what MIRNOVA is all about our raison d’etre, why we exist and work, and what Is our Work.
There are some short essays we are producing – one of them will be coming out soon, entitled
This “goes against the grain” of how things have been happening in mainstream-anything – academia, government, big-business, establishment research, and the kind of thinking and practice that almost kept Columbus and others from being able to venture forth and discover that, in fact, the world was round and that other people and entire civilizations lived exactly where the pundits and “experts” said that we would all fall off the edge into Oblivion.
This “goes against the grain” of the thinking that led to Vico and many others being burned at the stake, and had Galileo imprisoned, tortured and almost murdered by an Establishment deathly and desperately afraid of Any Kind of Different Thinking, especially if it could lead to a Different Truth.
This “goes against the grain” of what is dominating our world through censored and tweaked and constrained and artificially ordered information and censored knowledge in search engines like Google and in what people get to see – are allowed to see and read – on Facebook, LinkedIn, and elsewhere.
Here are three “philosophical” pieces. Short, to the point. These were written several years ago (one consists of writings from over 700 years ago!), before our world took a series of turns from which we at MIRNOVA are committed, dedicated, to doing something to change, to set straight, to fix and to do Better.
I dedicate the reading of these, and the thoughts that can follow, to people like:
Alfred North Whitehead
The Scholars of the Bayt al Hikma (House of Wisdom) in Baghdad
We are doing our best to keep up with all that’s going on.
Hopefully soon we will have more Support from folks like you and corporations and agencies who have been expressing deepening serious interest in everything MIRNOVA is doing.
Hopefully very soon we will have some more folks helping with their programming, web design, and graphics media skills.
Until that time, we hustle-and-bustle as best as we can.
Right now, the ENGLISH version of this website, the ENGLISH pages and posts, are the Most Updated, Most Accurate, and the ones that contain a lot about NEW developments, changes, especially with respect to different Projects and the main Programs and organizational Components.
We are determined and committed to straightening out all the texts for other important languages, and to soon add a few more, including ARABIC.
THANK YOU FOR YOUR KIND CONSIDERATION!
And please contact us if you can assist in any reasonable ways, especially with Putting the Word Out, Worldwide, to anyone and everyone who can be relevant and Supportive for THE WORK.
Some of our very own UAV for inspection and monitoring, capable of multiple sensors and quick changes and reconfiguration. We are making this and other devices sensible, usable, and affordable for basically Everyone, with really sensible economics and financing developed. We share in what People Produce! And more people can afford Smart Farming and Smart Energy technology than ever before – the world over!
Plus photos from a recent Agricultural Conference and Exhibition where we were present, in Meknes, Morocco, and a reminder of the close partnering between nations that is making a bigger difference because the Focus is on Peace and Production and Cooperation.
And a schematic rendering of S-Water, the primary module in AgroIntel, for Intelligent Irrigation. More powerful than it appears. Simpler than others that purport to do similar things. And more affordable. And, it Learns as time goes on! Day by day, week by week, season by season, year by year. It has its own built-in SYINT (Synthetic Intelligence) agent – and THIS IS REALLY SMART AND COOL!
Go to this link and read the PDF:
This is straight and to the point. It gives you an understanding of the answers to that perennial question, “What’s in it for me (us)?”
Go to this link and read the PDF:
And “No, this is not something about the Ubuntu operating system, although we love that, too!” )))
This is about our Projects and our Focus and the special place in all that for several partner institutions, communities, and regions of the world.
We Start Everything in AFRICA! Where our Human Race toward Civilization and Intelligence, and our wonderment about the stars and heavens and what everything means, Began… So long (nor not so long
This is a short and important document that everyone should read and contemplate.
It’s simple, direct, easy, and good.
You gain something personally, or as a company or institution, when you are helping and supporting MIRNOVA.
- Either directly, financially, through contributions, gifts, endowments, or contracts such as for consulting services, or to purchase products commercialized through MREV – Mirnova (r)Evolution Ventures, the business-arm of the organization-family
- — OR —-
- When you help us by opening the doors to those who can and will, through contracts, grants, contributions, and other forms of support to either the Academy, Foundation or Institute (all of which are not-for-profit entities) or MREV (which is a for-profit company ready for investment partners and stakeholders).
DETAILS: Contact Us and Find Out! Let’s Discuss What You Like, Want, Need, Wish, and Can Do!