s econd b.i.g. m eeting r ome 8-9-10 october 2010
TRANSCRIPT
SECOND B.I.G. MEETING ROME
8-9-10 OCTOBER 2010
MECHANICAL COMPLEXITY TENSEGRITY MODELING: A NEW PERSPECTIVE
DANIELE DELLA POSTA STEFANO TERZI
BASIC KNOWLEDGE OF COMPLEX SYSTEMS
• SELF ORGANIZATION SELF ORGANIZATION
• AUTOPOIESIS AUTOPOIESIS
• RHYTHM AND SPONTANEOUS RHYTHM AND SPONTANEOUS SYNCROSYNCRO
• NETWORK ORGANIZATION AND NON NETWORK ORGANIZATION AND NON LINEAR BEHAVIOURLINEAR BEHAVIOUR
SELF-ORGANIZATION AND DEVELOPMENT OF DYSFUNCTIONALNETWORKS – PROGRESSIVE TENSIONAL FORCES (PTF)
Tissues, but especially the collagen, adapt constantly to maintain their topological structure and function (tetracaidecaedric geometry).
To do this, the tissues, tend to repair themselves by replicating their own organizational topology of collagen molecules: it sometimes requires the commitment of more elements.
Therefore, in case of inflammatory processes after trauma, infection, postural and surgical stress, mechanical changes may be generated from collagen to cells and tissues. This will generate new conditions and bio-mechanical changes, bio-electrical and bio- chemical activity of cells.
This change creates also a different mechanical vector in macromechanic, locally by alteration or change of the axes of movement (joints and organs), and globally for a different organization of posture and dynamic balance. (PTF)
ANATOMICAL DATA LINK ®AND BIONET ®
ANATOMICAL RELATIONAL DATABASE
FOR ANALYSIS OF MECHANICAL COMPLEXITY.
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