Theoretical studies and philosophical analyses which look towards space, consumers, finance, economics, space programming, space development and ways in which customers interact with each other in physical space, as well as virtual space. In depth research about virtual environments, brain diseases and other related space development issues within our world. Here questions about life and evolution is asked and analysed to better approach the design process towards space development. We hope to achieve a clear understanding of these problems which can be addressed in creative solutions in design.
The architecture, engineering and construction industry (AEC) is the facilitator of large and complex industrial plants, multi-industry international exposition centers, residential centers and other types of complex and simple building or structure. It’s size is relative unknown, but estimated to be around £5.1tr in UK.
AEC software on the other side, it improves the efficiency of construction and engineering processes by providing two-dimensional as well as three-dimensional simulation models to end-users for analysis.
The analysts forecast the Global AEC market will grow at a CAGR of 7.84 percent over the period 2013-2018.
Deloitte published recently the average transaction per square meter which indicates that we have sufficient backbones to supplement the AEC with a Sustainability Factor (SF).
The SF is harvested from the supplier’s product description using our architectural resourcing system www.homepod.eu
Our vision is to make Homepod an underlying entity, from which the SF can used as a derivative for owner’s sustainable assets.
Commodities such as plastic, wood, ceramic, glass, steel, fabrics from the SF can will be traded through the EURONEXT and CME.
Today, the company is harvesting BIGDATA to monetise the sustainable value of products which our users collect when buying architectural resources. These points will be available for trade when the SU is released.
What happens if the Sustainability Factor crashes?
As we can see in the big financial crises of the 21st century, there is a likelihood that the price of the SF can change its monetary value, but an actual SF crash isn’t likely to happen unless buildings disappear overnight without trace.
SU is the sustainability value embodied in one building or structure. This sustainable value stays with the building and some of the components in the building can be upcycled, which can also increase the SF price over time (if that component is actually sold to upcycle).
This can give room for speculators and estimators to trade on the SF price based on AEC value and growth rates over time.
If you would like to partner with us, we are looking for partners with experience in derivatives, financial markets and commodities.
Have you ever considered to commercialize the air artifice? Well, it isn’t the air we breathe, but the air which we artificially generate and leave behind us as a waste.
What if you could make money when you travel, run or even when you cycle?
Over recent years, the energy economy has been exposed to huge price fluctuations as we can see the huge drop in fossil fuel price and the increase on clean energy spending.
This led to adverse effects on consumers and businesses. There is clearly, an energy risk, which is related to the lack of resources, high cost of extraction and maintenance which is currently thought by transiting into clean technologies.
ICDS ARCH LTD’s research in particle physics identified a pattern in storms that is currently under development to try to explain unusual particle behaviours for weather analysis.
We can look at our environment as a pool with ping-pong balls. Now hit one ball to see the domino reaction on other balls.
A rather complex picture to describe with one formula. When we travel with the car, often, we stick a hand outside, or, if you travel with the train, pay close attention when a trains approaches another train. This is visible, you can hear it and you can feel it and the amount of energy is enormous.
Let’s try to explain it first. Every particle has a mass(m) which travels a distance until it hits the other particle as in distance(d). The particle starts to travel at a point (u) until current time(t). When the mass travels, it produces friction in the environment which is defined by the viscosity of the environment(cf).
AEH = [ m*d / (u+t) ]*cf^2
Mankind generates huge amounts of aerodynamic friction, which is currently untapped by other technologies largely due to the lack of safe design.
Recently, the US Government produced a roadside wind turbine prototype that proved to be unsecure for people or animals walking past. Universities around the globe have researched designs on the same issue. Often, the design has proved too bulky for commercial use.
The company announced recently the development of MOION as in Motion Ions for the high speed rail network and plans to release its first prototype in 2017.
Moion intends to offer a secure and safe solution, compatible with many applications.
Moion uses the air friction (drag) to produce energy, without producing resistance.
The collected energy can be used as a power source for Lineside Operational Safety Signs, replacing the need to wire long portions of lineside from substations, thus reducing operational cost and increasing efficiency. This technology can also easily be transferred to road side applications, harvesting waste energy from cars, trucks, and busses.
If you are a manufacturer, distribuitor or and investor in clean technologies, we love to hear from you.
We define infinite through things we don’t understand to absolute measurements. This greed keeps us prisoners within.
New space structure in interior as space, whether inhabits planetary choreography created by waves through our visual perception, or to service spaces to gather the human perception, its movement is reinforcing conventionally discrete, the performative similarityand modulation stretched behind private zones within what we call personal space.
Spatial mutability therefore is postulated to the formalized architectural-type development, which generates automatically multiple space relationships within exterior fields enclosed in space vacuum. These are often found in dark matter fields which don’t capture light, therefore, there is no particles to bounce the light and the space appears to be dark.
The fluid development of zones with particles within the space vacuum structure should impose potential in building continuity through surrounding space, recognizing its compositional and spatial values from freestanding supports (dark energy, dark matter or anything that has no light), concealed in similarity, and paradoxically transferring the space development in individual spatial cells which recycles the great vacuum with continuous flow particles.
In comparison to the great vacuum surroundings, spatial particle vicinity is important due to its necessary relevance in abolition of enclosed spaces within vacuum surrounding or other particle vicinity. Each of the particle vicinity is defined by a set of length, angle and expansion rate which is afinite pattern to form continuous flow of particles and even particle growth through multiplication and unification with other particles.
The perception of particle surroundings is perceived as space self-preservation and therefore should expand the particle vicinity in continuity, reaching spatial mutability which should juxtapose spatial fluidity acquiring directly open space.
Particle vicinity development is thus highly dependent on its transparency openness, spanning infinity.
PS. Those two moons came up while I was searching the space for a perfect planet and there was luck to discover planet Pancake. 🙂
The planet earth is the primal construction site. All of our initial building supplies are provided by the earth’s sources, and even today’s synthetic materials derive in some way from the earth’s normal components. As our metropolitan areas keep on to develop and industrial initiatives expand, we no for a longer time believe we can move forward with unbridled carelessness in phrases of altering the natural surroundings. Sources are minimal. Extreme use of electric power is wasteful. Ongoing generation of toxic and other waste supplies is hazardous. In buy to continue society’s growth, we have come to realize the relevance of environmentally-accountable development, in terms of architecture, engineering, and city growth.
These days, there are several factors and techniques in spot that did not formerly exist to design and build properties while protecting the atmosphere. These must not be seen as hindrances to improvement only in these kinds of a short-sighted attitude is growth noticed as opposed to the safety of the setting. In reality, the opposite is considerably more true: that a lengthy-expression see of development wants to sustain a clean surroundings, both in conditions of controlling sources as properly as advertising a more healthy regular of dwelling.
Environmental Technological and innovation
Buildings residence people: no matter whether residential or business, people reside, breathe, try to eat and perform bodily capabilities inside of structures way much more usually than outside. Architectural engineering today must integrate as optimally as possible the conduite of a building’s h2o offer, wastewater and reliable throw away administration. Environmental engineering, or envirotech, is involved with the design and building of gadgets that synthesize recycling, h2o purification, air purification, sewage treatment method and electricity conservation. As populations increase and cities increase, clear living will count on these systems more and a lot more.
Inexperienced Building contractors
Similar to envirotech, inexperienced constructing (occasionally greentech), is much more anxious not only with the individual building’s effectiveness and throw away reduction in-itself, but also for the affect of the developing with its bordering environment. The reduction of greenhouse fuel emissions is an critical element of green constructing. Green constructing is therefore worried with both the high quality of existence (air, clean water) inside, and the neighborhood outside the house. Formal techniques have been set up to grant certification for meeting inexperienced building requirements, like the Management in Power and Environmental Design (LEED) ranking technique.
Sustainable Layout design
Even though envirotech bargains primarily with the products and processes by which buildings continue being successful and reduce throw away, and greentech is anxious with how properties perform routinely inside their atmosphere, sustainable construction incorporates equally of these elements by evaluating and optimizing performance and waste-reduction more than the total daily life-cycle of a creating. This cradle-to-the-grave strategy begins with the preliminary patterns and remains environmentally-dependable at every phase of construction, day-to-day functioning, as well as taking into consideration the building’s foreseeable future. Architectural technicians practicing sustainable design and style make use of the Lifestyle Cycle Evaluation approach to combine every aspect of environmental results.
From the units employed internally, to the relationship with the conversation, to the lengthy-expression concerns of our planet, environmentally-liable design is the proper way to developing a better long term.
The opportunities which new mapping technologies afford the architect and the urban designer throughout architectural practices offers the capabilities in decomposing the existing architectural image to integrate the human interaction. Offering to the architect the possibility articulate the mechanics of living, adapting to the technological environment while conceptualizing and transferring the the image of the nature to become the tool in organizing compositions and spaces in interior, exterior and urban design for further generations.
The technological environment has provided to the architect the tools in developing the architectural image by extending the image of architecture through various media and wired capabilities.
The new enhanced material capabilities afford the architect to better structure the realm of possibilities, providing more interaction between nature and the built form, a jungle matrix through the architectural image provided by the theories of Peter Eisenman, Antonio Saggio and Derick de Kerchove, which will provide the analysis for the materials with memory capacity.
Man has built spaces, interpreted after the natural form, transferring the graphical reproduction of the natural form into architectural form as described by the theories of David Gissen and the conceptual thought of John Tierney and Dan O’Sullivan.
Human interaction is essential for architect in developing spaces, such as the new mapping technologies would inter-connect the mechanical and the computational generating new sets of forms and surfaces articulated throughout dwellings and urban environments; structural thought provided by Patrick Schumacher and Brett Steele from Architectural Association London and related dwelling case studies of Le Corbusier.
Another urban development is analysed by the University of Tokyo, and on which senses of the places become the realm of structural and functional understanding to bridge the tools for the architect to cultivate architecture’s other environments into integrated places, mapping and integrating the architecture’s environments into the whole building continuum.
Man and the technological environment
“We cultivate and theorize our technological environment today in strange and partial ways, without ever admitting to ourselves that this is what it is, an environment. ” (Kwinter, Sanford 2007:18)
Architecture is the product of our imagination, as Leon van Schaik (2008) has mentioned, ‘architecture is a product of mental space’, which brings together the world, to generate the connections in developing extensive environments, in which we live and share as a community as Furion Barzon (2003) has mentioned.
The mental space is the place where man engages into the journey through space. Dan O’Sullivan (1994) has mentioned, man would engage into its journey to constantly looking for points and signage to interact with, engaging in connected relations between nature and the built environment, engaging into matrix of possibilities as Peter Eisenman (2003) points out.
The journey offers the representation of the projected consciousness, in other terms the built reality, which is in fact a product of repetitive information packets interacting through the built environment into one physical environment as Derrick de Kerchove (2001) points out.
“The architecture of intelligence is the architecture of connectivity. It is the architecture that brings together the three main spatial environments that we live in and with today : mind, world and networks. “ (Derrick de Kerchove 2001:7)
The architectural image developed by interacting connections within our mental space becomes the product in sensing the spatial environments, to become the main interaction into extending the boundary of the architectural image, as Peter Eisenman (2003) has mentioned.
The projected image becomes the main spatial environment in which we live, and which is transferring the mind, the world and the network into becoming the system of connection, as Derrick de Kerchove (2001) has mentioned.
The architecture of intelligence which engages into being the information package embedded with artificial networks, interpreted as infrastructure between physical and the virtual, as Peter Eisenman (2003) points out.
“Connected architecture tackles the management of thresholds and infrastructures between first the physical and the virtual space, but ultimately also the thresholds between mental and virtual spaces even as more and more designers are called upon to interpret new cognitives possibilities.” (Kerchove, de Derick 2001:18)
The projected image of architecture becomes the image of the intelligent architecture. It is consisting of information clusters which is connecting multiple instances of time between different thresholds, between mental and virtual as Derrick de Kerchove (2001) points out, between solid and fluid.
FIG.1 Intelligent environment characteristics (Addington and Shcodek 2005)
The parameters of reasoning and evaluation as defined in Fig.1 reflect within our mental space producing the visual structure which is managing our view and our perception of the built environment through the surrounding space. The interaction between space and the perception of the build environment, is developing the sensorial synthesis, as Paul Adam (2007) has mentioned, ‘the sensorial synthesis is based and formed from patterns interacting impressions, sensations and ideas’.
The sensorial synthesis is the organizational mechanism which is developed not only to give us the sense of space, but also to place us inside, and outside the inhabited space, and in the atmosphere within our physical environment, as shown in Fig.1. It constitutes models for implemented awareness through the organizational mechanism.
“The image of the building boundary as the demarcation between two different environments defined as single states – a homogeneous interior and an ambient exterior – could possibly be replaced by the idea of multiple energy environments fluidly interacting with the moving body.” (Addington and Shcodek 2005:8)
The building boundary of the built environment as Addington and Shcodek (2005) points out is the demarcation between different homogeneous and ambient states of intersecting bodies through space. The interaction generated by the moving body through this particular environment would create multiple energy points, defined as environments which would fluidly interact with the organizational components of the system.