© Leonard Walletzký



}We need to describe things
}And their relations
}In some given context
}Than we need to organize/plan operations
}And execute them in some time perspective
}Our natural language is
◦Redundant
◦Ambiguous

}See
◦Describing things (objects) and basic relations
}Recognize
◦Adding context to relations
}Organize
◦How agents behave to recognized objects, what kind of operations we can do
}Do
◦Executing planned operations and getting results

}We are describing the seen object
}It has
◦Particular shape or form
◦There can be some different variets of this object
◦It can be used for some purposes
◦Using this object is under some rules
}There can be connections to other objects
◦
◦
◦

}Which objects do we find interesting for modelling?
Category
Rule
Relationship
Operation

Category
Rule
Relationship
Operation
Object
P
R
R
R
R

}Edges R1, R2, R3 and R4 are together called R-edges. R-edges serve to perform transitions between
mentioning and using and vice-versa.
}If we focus on a concrete object of the class Object, which was spoken of in a way (MENTION),
then by the operation USE we will pass the relevant R-edge and we will reach represented sequence
(Connection) or operation (Operation) or category (Category) or rule (Rule), which could be
then directly used, or we will reach nothing.
}If we focus any vertex of the Diamond graph on the other hand (which we used in a way - USE), then
by the operation MENTION we will pass the relevant R-edge and we will reach this vertex
representing object, which we can speak of directly.

Category
Rule
Relationship
Operation
Object
P
R
R
R
R

}Dmt-objects dwell in container (Object) in Diamond. Containers used in Diamond will be defined by
specification of their member elements.
}Container (#Object) is defined in such a way that it contains all such dmt-objects which can be
mentioned in DMT, i.e. which can be assigned certain properties.

}Container (#Connection) is defined in such a way that every of its elements is a sequence of the
length n (n-tuple) of dmt-objects, where n is some finite natural number.
}Every element of the container (#Connection) is called a connection or a sequence.
}Container (Connection) contains by definition one special element  called improper connection.
It is not possible to determine objects constituting improper connection.

}Container (#Operation) is defined in such a way that every of its elements is an algorithmically
computable transformation of one state of DMT to, generally, another state of DMT.
}By the state of DMT we mean one particular filling of DMT (as a container) by elements-instances,
that may dwell in DMT.
}We assume there always are two (boolean) objects in DMT, one of them codes True, the other False.
}The elements of the container (#Operation) are called operations.
}Some operations may fail, i.e. return object coding False, under certain circumstances and succeed
under different circumstances. Some operations always succeed.

}Container (#Category) is defined in such a way that every of its elements has the following
properties:
◦1. it is a container for dmt-objects,
◦2. it is one-to-one mapped to the pair <Cn, Op>, where
–Cn Î (#Connection), Op Î (#Operation), and
◦3. it holds about the operation Op that by means of the connection Cn it can recognize whether a
given object is or is not in this container.
}The elements of the container (#Category) are called categories.
}The connection Cn is called a defining connection of this category, the operation Op is called a
defining operation or an evaluator of this category.

CI-connection
Category
Item
´Items (= objects as such, not their constructs) belongs to a category with a given certainty

CI-connection
Category
Item
}The fact is manifested with a certain attention in a given context
Context
Manifestation

CI-connection
Category
Item
Context
R
R
R
R
Manifestation

CI-connection
Category
Item
}Context serves as a model. The base edge defines the set of categories to classify its items to
Context
R
R
R
R
Manifestation

}Organizing diamond
}How is your life / position / work organized
}How can be some agent
◦Member of some team
◦Work on projects
◦Be educated or teach

Goal
Activity
Agent

Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent

Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent

Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent
GBS
composite

Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent
GBS
composite
R22
R11

Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent
GBS
composite
R22
R11

}Matrix-based organization: Action vs. Flow }Activity vs. Action / Flow
}R-edges
Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent
GBS
composite
R22
R11

}



forming / formed by
occuring within
solved by
fulfilling
addressing
recorded in

Identified within



Model records.
Agent wishes, defines, does.


Composites



R-edges



}Depicts the motivation of agents to DO
}Everything can be seen as a requirement
}Forming and being formed by behavioral patterns
}Models as a system memory

Attention
Focussing
Cognitive
Elements
Agent-Team
Organization
Predictive
Behaviour
CI-connection
Category
Item
Context
R
R
R
R
Manifestation
Category
Rule
Relationship
Operation
Object
P
R
R
R
R
Action
Flow
organizer
member
organizer
member
Goal
Activity
Agent
GBS
composite
R22
R11

}Do you find it interesting?
}And useful?
}Why has it remained a pure theoretical concept?
}Is it too complex?

}Several academical works, none has made it to the business practice
´...with one exception


}Simulation environment designed to benchmark technological solutions of future-energy grids
}Combines objects on various levels of abstraction
´Comprises a number of mental contexts: distribution network, communication network, information
scope, devices, technical processes, ...
´Very complex, difficult environment – worth systematical thinking