atom09:System Theory
What defines an effective and efficient system? How is a regular system organized?
A SYSTEM is a set of various Components with different Relationships.
SYSTEM: a set of interacting or interdependent components forming an integrated unity.
Components: In mathematic, an element, which is the components in a system, or member of a set is any one of the distinct objects that make up the set.
Relationship: A relationship is normally viewed as a connection between two individuals.
Systems have structures, defined by components and their composition.
Systems have behaviors, which involes inputs, processing and outputs of material, energy, information or data.
Systems have interconnectivities, which the various part of a system have functioned as well as structure relationships to each other.
Systems sometimes have boundaries.
Isolated system - A system with a closed boundary and it does not interact with the surroundings at all.
Closed system - A system with a half closed boundary, only exchanges energy.
Open system - A system without a boundary makes itself integrated and interacts with the surroundings.
Problems
Why doesn't the site (system) work well at the moment?
We think it doesn't because it's isolated.
For further description: Interview Analysis.
Question
How to organize an OPEN SYSTEM?
An open system should have 3 criteria:
Components, Components' Behavior and a complete circulation ofInterconnectivity between the Components.
Solutions could be found in the Proposal section.
Challenge
To improve the current (site) "system" by activating it, making it more open, integrating it with the surroundings and attracting more visitors.
Referring to the conclusion of Scenarios, to make an OPEN SYSTEM is the best solution.
To Create A Dynamic System by Parametric Method
- Restore the site to make it a useful component of the surroundings;
- Reorganize the site itself to be an effective and efficient system - an OPEN SYSTEM.
Three criteria:
Components, Behavior and Interconnectivity.
As an open system, each component has a certain behavior.
Component A's behavior affects component B, and B gives feedback to influent A,
this is a complete interconnectivity and interaction.
The image on the left best describes the relationship between 2 components: