Harmonious architecture and kinetic linear energy

This is a chapter in a book based upon the work from an Erasmus International Project which took place in Athens in July 2012

A new paradigm for deep sustainability: biourbanism

Biourbanism introduces new conceptual and planning models for a new kind of city, valuing social and economical regeneration of the built environment through developing and healthy communities. Thus, it combines technical aspects, such as zero-emission, energy efficiency, information technology, etc. and the promotion of social sustainability and human well being. In effect, this new paradigm endorses principles of geometrical coherence, Biophilic design, BioArchitecture, Biomimesis, etc. in practices of design and also new urban policies and, especially Biopolitics to promote urban revitalization by ensuring that man-made changes do not have harmful effects to humans. Green city standards start inside the designs of each building and continue either in unbuilt spaces surrounding buildings or inside complex infrastructural networks, connecting buildings and people. The proposed presentation should illustrate how new exciting developments recently, such as fractals, complexity theory, evolutionary biology and artificial intelligence are interrelated and constantly stimulate interaction between human beings and the surrounding environment. New Biophilic solutions in designs of buildings have been proved as attractive opportunities for new markets of housing. Thus, some new infrastructural projects start embracing Biophilic advanced solutions which finally aim at energy efficiency and optimal performance. As parallel activity we can now see emerging new innovative monitoring systems of building health not only in small scale, but also in large scale buildings, such as rail stations, for example, and commercial centres or even sometimes entire educational complexes integrated to new infrastructural projects. Some important case studies are going to be presented; they have been analysed and evaluated by Biourbanism and Biophilia principles and applied methods of design

Complexity and biourbanism: thermodynamical architectural and urban models integrated in modern geographic mapping

The paper was presented on 5th April 2012 by Eleni Tracada in Theoretical Currents II conference in the University of Lincoln.Abstract Vital elements in urban fabric have been often suppressed for reasons of ‘style’. Recent theories, such as Biourbanism, suggest that cities risk becoming unstable and deprived of healthy social interactions. Our paper aims at exploring the reasons for which, fractal cities, which have being conceived as symmetries and patterns, can have scientifically proven and beneficial impact on human fitness of body and mind. During the last few decades, modern urban fabric lost some very important elements, only because urban design and planning turned out to be stylistic aerial views or new landscapes of iconic technological landmarks. Biourbanism attempts to re-establish lost values and balance, not only in urban fabric, but also in reinforcing human-oriented design principles in either micro or macro scale. Human life in cities and beyond emerges during ‘connectivity’ via geometrical continuity of grids and fractals, via path connectivity among highly active nodes, via exchange/movement of people and, finally via exchange of information (networks). All these elements form a hypercomplex system of several interconnected layers of a dynamic structure, all influencing each other in a non-linear manner. Sometimes networks of communication at all levels may suffer from sudden collapse of dynamic patterns, which have been proved to be vital for a long time either to landscapes and cityscapes. We are now talking about negotiating boundaries between human activities, changes in geographic mapping and, mainly about sustainable systems to support continuous growth of communities. We are not only talking about simple lives (‘Bios’) as Urban Syntax (bio and socio-geometrical synthesis), but also about affinities between developing topographies created by roadways and trajectories and the built environment. We shall also have the opportunity to show recent applications of these theories in our postgraduate students’ work, such as a 3D model as a new method of cartography of the Island of Mauritius, with intend to highlight developments in topography and architecture through a series of historical important events and mutating socio-political and economical geographies. This model may be able to predict failures in proposed and/or activated models of expansion, which do not follow strictly morphogenetic and physiological design processes. The same kind of modelling is capable to enable recognition of ‘optimal forms’ at different feedback scales, which, through morphogenetic processes, guarantee an optimal systemic efficiency, and therefore quality of life.ADT funds, university of Derby

The Phylomemetics of Batik

The paper reports the analysis of phylomemetic tree onto batik motifs developed uniquely in all corners of living and in the heart of tradition of Indonesian people. The diversity is visualized, be it classical traditional motifs and the ones recognized to be recently innovated. This is the first important thing we can learn about through the phylomemetic tree, i.e.: as a visualization of creativity landscapes of Indonesian batik. The second thing to be learnt is that we could see the clustering of collective cognitive people respect to different ethnic groups and community in which the batik motifs were originally developed as well as innovated and improved dependent on the way people at the region produce, design, and then appreciate batik. This brings us to the concluding remarks, that batik is the world heritage grown in Indonesian archipelago

The Value of Moderate Obsession: Insights from a New Model of Organizational Search

This study presents a new model of search on a “rugged landscape,” which employs modeling techniques from fractal geometry rather than the now-familiar NK modeling technique. In our simulations,firms search locally in a two-dimensional fitness landscape, choosing moves in a way that responds both to local payoff considerations and to a more global sense of opportunity represented by a firm-specific “preferred direction.” The latter concept provides a very simple device for introducing cognitive or motivational considerations into the formal account of search behavior, alongside payoff considerations. After describing the objectives and the structure of the model, we report a first experiment which explores how the ruggedness of the landscape affects the interplay of local payoff and cognitive considerations (preferred direction) in search. We show that an intermediate search strategy, combining the guidance of local search with a moderate level of non-local “obsession,” is distinctly advantageous in searching a rugged landscape. We also explore the effects of other considerations, including the objective validity of the preferred direction and the degree of dispersion of firm strategies. We conclude by noting available features of the model that are not exercised in this experiment. Given the inherent flexibility of the model, the range of questions that might potentially be explored is extremely large.Rugged Landscapes; Local Search; Cognition; Obsession; Fractal Geometry

Hierarchical population model with a carrying capacity distribution

A time- and space-discrete model for the growth of a rapidly saturating local biological population $N(x,t)$ is derived from a hierarchical random deposition process previously studied in statistical physics. Two biologically relevant parameters, the probabilities of birth, $B$, and of death, $D$, determine the carrying capacity $K$. Due to the randomness the population depends strongly on position, $x$, and there is a distribution of carrying capacities, $\Pi (K)$. This distribution has self-similar character owing to the imposed hierarchy. The most probable carrying capacity and its probability are studied as a function of $B$ and $D$. The effective growth rate decreases with time, roughly as in a Verhulst process. The model is possibly applicable, for example, to bacteria forming a "towering pillar" biofilm. The bacteria divide on randomly distributed nutrient-rich regions and are exposed to random local bactericidal agent (antibiotic spray). A gradual overall temperature change away from optimal growth conditions, for instance, reduces bacterial reproduction, while biofilm development degrades antimicrobial susceptibility, causing stagnation into a stationary state.Comment: 25 pages, 11 (9+2) figure