Difference between revisions of "Meta University"
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= Who can attend [[MU]]? = | = Who can attend [[MU]]? = | ||
[[MU]] subscribes to [[Open Source Software]] ([[OSS]]) principles, and utilizes the code base and [[namespace]] definitions of [[MediaWiki]] | [[MU]] subscribes to [[Open Source Software]] ([[OSS]]) principles, and utilizes the code base and [[namespace]] definitions of [[MediaWiki]]/[[Semantic MediaWiki]] to operationalize [[metadata]] management, so anyone who registers an account on [[PKC]]-compliant data service can engage immediately. The learning process allows anyone to make progress on their own, while allowing cross-reference across other personified avatars or agencies using [[time]] as the global variable to measure learning progress, encouraging independent discovery, self-driven merits, and objectively-traceable experience, in contrast to traditionally-administered tests and subjective grades. More specifically, users of [[Digital Literacy Scale|different technical literacy scales]] can all find their respective entry points to start engaging with the learning activities with [[MU]]. [[MU]]'s participant categorization is shown below: | ||
{{:Digital Literacy Scale}} | {{:Digital Literacy Scale}} | ||
Revision as of 01:46, 19 February 2022
Imagine an idealized learning space, where all learning activities and organizations are universally allowed to interact, welcomes everyone, regardless of their social status or their funding availability, just the willingness to learn! Meta University(MU), as an idealized universities[1] is based on the principle of data-centric knowledge, intended to be universally applicable to all learning organizations. It is freely available to anyone and welcomes contributions from everyone!
To accommodate the uniqueness in everyone's learning trajectory, MU unifies learning activities in a data-centric principle, where knowledge, information, and domain-specific data are universally connected through the science and technologies of data. This data-centric strategy of intellectual framing, will help operationalize the attainment of logical truth based on observable data, which can be recursively pursued and validated using the trascending notion of Universality!
What is the purpose of MU?
The purpose of MU is to offer the opportunity to learn data-centric knowledge for all, helping everyone to know their own capacity, and engaging anyone to apply data-centric knowledge to all fields of applications.
How does MU work?
We stand at a digital era, it's the 4th Industrial Revolution and materialization of education became irrelevant as well as the education is unique for all therefore should have the opportunity to learn in what can become better. MU is a decentralized governance protocol designed to organize intellectual consensus based on data-centric knowledge. Operates in a decentralized fashion, everyone may administer one's own Personal Knowledge Container(PKC) as a consensus-shaping semi-automated agent to offer data services with the following properties: data representation, data processing, and high-availability service. The external presentation of MU is a human and machine processable language, represented by a set of relationally defined vocabulary that are universally accessible through an online library, that offers publicly updatable content-sharing services. The process of engaging everyone, including students and teachers around the world to collaboratively refine a publishable space of data-centric knowledge should help improve knowledge dissemination and content accumulation universally.
Who can attend MU?
MU subscribes to Open Source Software (OSS) principles, and utilizes the code base and namespace definitions of MediaWiki/Semantic MediaWiki to operationalize metadata management, so anyone who registers an account on PKC-compliant data service can engage immediately. The learning process allows anyone to make progress on their own, while allowing cross-reference across other personified avatars or agencies using time as the global variable to measure learning progress, encouraging independent discovery, self-driven merits, and objectively-traceable experience, in contrast to traditionally-administered tests and subjective grades. More specifically, users of different technical literacy scales can all find their respective entry points to start engaging with the learning activities with MU. MU's participant categorization is shown below:
- Non-Digital Native: Any person who has the potential to use popular web apps and smartphone apps for daily operations.
- Content Creator: All participants will have read/write access to at least one dedicated instances of PKC. Since all content are automatically version controlled, we will allow dedicated content organizers/librarians in your own teams to maintain data integrity.
- Self-Service Agent: All participants will be given instruction material to learn to operate their own PKC instance for personal knowledge management. However, installation and operation of this personal data instrument are not required for all participants, shared instances of PKCs are encouraged.
Pedro: I would propose to use experience and capacity of learning which are variables we can define much broader. Remember my initial equation Capacity of learning = Xp / time which defines that you can actually have more experience then anyone else if your capacity of learning is higher. We can do this with proper metrics ( can't be only with matomoto, I need to design this equation properly and we have to build the interface our own)
What can be achieved by joining MU? How does it differ from existing Universities?
By managing knowledge through personally-administrated data exchange tools, MU helps individuals and organizations to acquire data and content knowledge relating to merits, capacity of learning, self-governance/self-discipline, social exchanges, and personal scope that existing education system have not been able to formulate at the Internet-scale. In contrast, MU enables individuals and organizations to gain automated access to unrestricted collection of data content, and retain content within privately operated knowledge containers. This knowledge dissemination and storage architecture will strive to become a faithful provider to preserve free-will and respect privacy in a technically verifiable manner.
What can it become professionally
All activities conducted in MU are considered to be transactional data, and can be selectively recorded. It informs participants to recognize what parts of inputs/outputs are shown in public, and what parts of the data can be protected in privately-owned data storage. Since MU provides a universal data reasoning infrastructure to encourage knowledge reuse across domains, adopting MU's domain-neutral approach, allows for individuals and organizations to organize their knowledge portfolio beyond domain-specific data sets as defined by the status-quo of legacy professional practices.
We have to be better here, we need to assure engagement to the work life here, because it's the purpose of eating what we sow. will have to create a cycle around it and it's possible in IT to do that, but we need to center PKC to be used also on environment editors and so on.
How can I learn more about MU's Learning practices
Please start learning by registering onto or operating your own instance of PKC, now.
The Framing of MU
MU's emergence comes from imminent societal needs. The following logic model tries to capture the essence of why we must create MU now.
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Implementation Strategy
To make this happen, we decide to leverage the Web Tech Stack as an operational platform and leverage the resources and tools in this open-ended platform to govern the evolutionary trends of MU. MU has three explicit functions:
- MU is a data container for Learning Activities, it captures physical activities in concrete data elements for the organization.
- The Data Content of MU is governed by the participants of these learning activities, implemented as smart contracts authorized by the said participants.
- MU invites verification and validation, through namespace management, time stamping and data linkages, MU associates physical meaning to data by encoding content knowledge based on the observable patterns of the physical universe.
The goal statement mentioned above also indicates that MU will provide a curriculum that enables a minimal footprint to the core content knowledge while covering the broadest possible content areas. In other words, MU's existence can be thought of as the core/kernel of an operating system of knowledge acquisition in this data-intensive era, and it will help organize learning activities in a structure that best adheres to this fast-changing world. Specifically, MU will offer a curriculum structure that follows the above assumptions and try to link all knowledge content using a unifying data management strategy.
Individuals and their Societies
Knowing that all content knowledge cannot exist in isolation. MU is intended to be a social learning tool that allows individuals to maintain one's private content while maximizing their ease of exchange with other interacting parties. Therefore, MU will explicitly spell out project management tools and practices for both individuals and team members and offer data governing policies for all participants. The logic of how data evolve is the foundation of computing science, and that is where all projects on MU-supported projects will leverage its project management/governance features. This requires users to be highly aware of data security and data privacy-related issues.
In layman's terms, MU will organize content knowledge in the units of languages, starting with the foundation of all languages, the meta language, or the logic of data in general. Then, MU will introduce domain-specific languages, including linkages to natural languages as ways to demonstrate the power of information compression in languages. Therefore, MU participants can continuously leverage a single repository of languages, to organize their own knowledge content in privately controlled data storage containers.
A Universal Container
The first principle of MU is to assume that certain universal principle exists. The principle that we will introduce to all MU students is the notion that all data can be represented using the same type, a type called: "Lattice" or bounded "Partially ordered set"(POSet). This universal data type can be mapped onto human's daily experience in terms of space, time, and energy. The reason that we must introduce this common notion of data structure is to offer a universal data framework that will be applicable to situations across all spatial and temporal contexts. To guarantee this universality, some logical assumptions must be made, and we assume that all spacetime complex follows the logical boundaries of POSet.
Foundational References
MU differs from other universities by starting its curriculum in a sequence that is almost opposite of what most popular curricula are designed. This is suggested by Gregory Chaitin, that many accomplished mathematicians are taught the most advanced mathematics from a young age and in a sequence that delights their interest to pursue mathematical content. When properly administered, this strategy may apply to learn and teach content knowledge of any kind. For example, we will provide a universal data structure[3], a.k.a. lattice[4][5], to approximate the boundary of our logical reasoning scopes.
Prior work
A Google Document on Meta University that lead to this document is available[6].
MetaUniversity
Programs in MU will be organized in languages, as in managing vocabulary, syntactical rules, and pragmatic uses. This classification will enable a unifying framework and data analytics tools for learning outcome assessments as well as enabling the compositional opportunities of knowledge content.
The Notion of Universality
Universality is a operationalized definition according to logicians.
A Generalized Process for Knowledge Acquisition
A university is an agency that embodies collective Intelligence. The process model for such intelligence can be modeled after ideas originated in Carl Jung and Thomas Kuhn's theories.
Containers for all Knowledge
Using Wikidata as an example.
- Leverage Existing Data and Learning Assets on the Internet
- Capture visitation data for all these assets
- Provide annotation and create new content
- Publish it using PKC
Conceptual Space and Repeatability
As I talking with 郭逸舟, he mentioned Gutenberg can make more impact was due to the size of alphabet in European languages are smaller than Chinese. So that he was able to leverage his work to create Renaisance.
Functional Roles in Society
The initial vocabulary of Roles in MU will be based on two camps of knowledge, Holacracy's roles and Ansible's roles.
Data as the Medium
Core Curriculum:Reliable Data as the Medium
Data identity is given measurable degrees of trust worthiness based on timestamps and namespace references.
According to Prof. Gautam Dasgupta, this curriculum will be organized in various methods of counting:
- Arithemtic:Counting in Numbers (See Gasing Counting)
- Geometry:Counting in Space
- Music:Counting in Time
- Astronomy and Geography:Counting in Spacetime
Skill Mastery
A univeresity is also a place where skills and knowledge of persons get refined to a point of mastery. To ensure this experience of incremental improvements and shaping of good habits, while avoiding addiction, we need a general framework to observe the process of entering mastery. The program will be initiated with past experience accumulated in the previous programs:
Domain Specialties: Disciplinary Specific Data
Smart Contracts to operationalize accountability
All students in Meta University must use Smart Contracts to organize their shared tasks.
Measuring Metrics: All learning activities will be accounted for
Learning activities will be registered using common databases. Detail actions for each participants will be tracked by Matomo.
Working with Concurrent Data Events at Scale
Teach all students the basic notion of sets, orderings, and compositions in precise languages. Moreover, allow them to present the data and information content in tools and platforms that would matter to their daily lives.
- Content-wise Linked Open Data
- Processing Capacity Scale Up and Scale Out
An Exchange Platform
There are some existing literature[7] that already covers content related to this proposition. Financial and labor market places will be set up to enable exchanges. Ideally, some form of financial rewards should be directly written into smart contracts for people who are competent to conduct their work professionally.
Organizational Sustainability
Participation model,Reaching Consensus, and Failure Handling
Actor Model, Decentralized Identity Authentication, and Game Theoretic Decision-Making.
Branching and Exiting
Since all types of organizations must evolve and change over time, mention Thomas Kuhn and his book[8].
Merging and Joining
All organizations evolves in a similar way, mention Kuhn's Cycle and his book[8].
Data is the Asset
To help students assess the values of knowledge content, value of data content is dynamically evaluated in covertable currencies. MU will provide an exchange market place for students to verify and validate the transaction of data content, while measuring these transactional activities to assess the social value of individual data assets. Both factual and counterfactual data content can be computationally synthesized to create a single source of truth.
Score Keeping: Manage incentives
Offering currencies to quantify data asset transactions can be an incentive mechanism for learning. It is operationally feasible to record all data transactions between users in MU. In the universe of data, any data exchange could cause a cascading effect throughout the community. Therefore, score keeping should be managed by sustainable governing mechanisms. Data from the past, present, and future should all be given credits and therefore, create a perpetual incentive system for all. Instrumentation such as PKC will keep these transactional data records as a form of evidence for accumulative efforts or contributions. In educational practices, they are often called degree certificate/badges or gamification. Put it simply, it is one of many scoring, or assessment mechanism in traditional teaching. The most important aspect is to establish a formalized metric to continuously assess learning accomplishments using highly-available and consistent data.
Namespaces: Managing Data Dictionary over Time
To ensure all data content are tracked within MU, a set of highly-available, automated data dictionaries will be utilized to track the above mentioned transactional activities in terms of frequencies and amount of data exchange. This transactional activity log will provide a mechanism to measure the focus of interests of the utilizing parties.
Time:the symmetry-breaker
Become Productive and Offer Services to Society
All the above mentioned knowledge should enhance the participants' capability to create better products and services in their respective society. MU intend to have all participants to be productive in offering data, information, knowledge, and actual services/products while they are learning at MU. The data-intensive environment articulated earlier will enable people to contribute to a data-linked supply chain of services and products. More importantly, it should reduce the unnecessary barriers and middle persons in the economic process. MU will enhance students' and the overall MU community's productivity by offering a number of foundational guidance:
- Governance Template in terms of Constitution
- Economic Template in terms of Exchange Marketplaces and Currencies
- Technology Template in terms of DevOps and Linked Open Data APIs
Value assessment workflow
MU also provide reference implementation and experimental programs to verify and validate approaches to turn data into valuable assets. These are considered to be workflows that includes explicit speficiations of tools and data content.
Conclusion
Toward the Science of Self-Governance
References
- ↑ Newman, John (1986). The Idea of a University (University of Notre Dame Press edition 1982 ed.). local page: University of Notre Dame Press. ISBN 0-268-01150-8.
- ↑ Gordon, Moore E. (Apr 19, 1965). Cramming more components onto integrated circuits (PDF). local page: Electronics Magazine.
- ↑ Scott, Dana (January 1, 1970). "Outline of a Mathematical Theory of Computation". local page: Oxford University Computing Laboratory Programming Research Group.
- ↑ Cousot, Patrick; Cousot, Radhia (1977). Abstract interpretation: a unified lattice model for static analysis of programs by construction or approximation of fixpoints (PDF). 4th POPL. local page: ACM Press. p. 238-252.
- ↑ Cousot, Patrick (Sep 2021). Principles of Abstract Interpretation. local page: ACM Press.
- ↑ If you have editorial access to the Meta University Google document, click here
- ↑ Crawley, Edward; Hegarty, John; Edström, Kristina; Sanchez, Juan Cristobal Garcia (2020). Universities as Engines of Economic Development. local page: Springer. ISBN 978-3-030-47549-9.
- ↑ 8.0 8.1 Kuhn, Thomas (2012). The Structure of Scientific Revolutions (50th Anniversary ed.). local page: University of Chicago Press. ISBN 978-0-226-45811-3.
Related Pages
Has Logic Model:True, Was created on:02 19, 2022