i-DAT launched OP-SY.com – a central repository for its Operating Systems on the 27/11/2010. After 10 years it is being archived as the OS Systems have evolved into the Quorum Programme. Arch-OS was the first and most ambitious i-DAT Operating System and the original website might still be found here arch-os.com as the only remaining external external OP-SY Programme. Below is a backup.
Arch-OS System Downloads Projects Information Contact
“Cybrids – a link on the continuum between concrete objects and abstract data. The line that separates data from objects represents a continuum rather a division. Today there are situations where data and concrete objects work together to create new spatial entities, herein called ‘cybrids.’ A cybrid is a hybrid of physical and electronic spaces.”
Anders, 2001
Arch-OS represents an evolution in intelligent architecture, interactive art and ubiquitous computing. An ‘Operating System’ for contemporary architecture (Arch-OS, ‘software for buildings’) has been developed to manifest the life of a building and provide artists, engineers and scientists with a unique environment for developing transdisciplinary work and new public art.
The Arch-OS experience combines a rich mix of the physical and virtual by incorporating the technology of ‘smart’ buildings into new dynamic virtual architectures.
System
Arch-OS systems (integrated hardware and software) incorporate a range of embedded technologies to capture audio-visual and raw digital data from a building through a variety of sources which include:- the ‘Building Energy Management System (BEMS);
- computer and communications networks;
- the flow of people and social interactions;
- ambient noise levels;
- environmental conditions.
This vibrant data is then manipulated and replayed through audio-visual projection systems incorporated within the fabric of the building and broadcast externally using streaming Internet and FM radio technologies. By making the invisible and temporal aspects of a building tangible Arch-OS creates a rich and dynamic set of opportunities for research, educational and cultural activities, as well as providing a unique and innovative work environment.
There have been two large scale system installs and multiple installations of Arch-OS components. The two significant system installations can be found in the Portland Square Building in Plymouth University, Plymouth, UK and the Curtin University Resources and Chemistry Research and Education Building, Perth, WA.
Portland Square and Curtin University Resources and Chemistry Research and Education Building.
There were two distinct system diagrams produced for these installations:
Original Arch-OS and i-500.
Arch-OS integrates the three technological levels of a Cybrid building. These are:
- [1] Interface: The Arch-OS infrastructure, networks, sensors and audio-visual playback systems… nervous system…
- [2] Core: The control centre for the Arch-OS, the central processor, the modeller and visualiser… brain…
- [3] Projects: The means of expression for the Arch-OS, commissions for artists, engineers and scientists… emotion…
[1] The ‘Interface’
the construction of the internal media networks and data collection devices. The interface (between the physical and the virtual) consists of a dedicated network that transports data from a range of sensors (cameras that monitor the ‘flocking’ of people, microphones to monitor ambient sounds, BMS information, network traffic data, lift location and movement) to the ‘Core’.
A: Building Energy Management System [BEMS]:
The Arch-OS BEMS tool measures the environmental changes within a building. It is essentially a large database of energy usage and environmental control. Arch-OS interrogates approximately 2000 sensors (in the Portland Square installation) of a standard industrial BEMS system. Utilising the standard Modbus serial device communications protocol, the Arch-OS-BEMS tool is purpose built Modbus master connected via a RS232 link to the BMS acting as the slave, ensuring the integrity of the BEMS security is maintained. Arch-OS can tap into a range of BEMS API’s or tailored ‘hacks’ can be built to suit older systems.
Arch-OS can select subsets of both digital and analogue sensors for real-time data monitoring. The data can be stored on the Arch-OS server for on-demand acquisition or exported directly to the users application in ODBC format. In both cases this is achieved via TCP/IP connections to the users application.
B: Vision:
The Arch-OS vision tool monitors the flow of people through the building, and provides a stream of visual data to the Core Arch-OS. In the Arch-OS vision system, the composite video signals of the cameras are pre-amplified, then sent to three PCs in the Arch-OS control room. Each PC acquires live images with a frame grabber card and processes them using a dedicated motion detection and tracking software.
Motion information is stored every 40 ms as a data matrix using a double buffer scheme. A web server runs on each PC enabling the user application to access the most up-to-date data in the form of a binary stream produced by a server-side CGI program.
Alternative solutions can be integrated such as the Kinect SDK Flash, open CV and Processing based vision systems
C: Audio:
The Arch-OS audio tool consists of an integrated recording, processing and playback system, which allows an evolving library of sounds, generative audio and live recordings to be played through a multi-speaker system (56 in the Portland Square development). The multi-speaker system provides a unique 3 dimensional matrix within the buildings which allows audio to be positioned at specific locations and paned around the space, through corridors and around atria.
The Curtin University install uses Audio Spotlight technology to focus beams of sound into specific areas within the building to ensure minimum sonic disruption.
Arch-OS audio can be controlled by the Core processing system (sounds tracking the flow of people captured on the Arch-OS vision system for instance), by the inhabitants of the building or through the internet to allow users to remotely orchestrate sounds within the space.
D: Network:
Arch-OS network tool monitors and harnesses the flow of data within the buildings computer networks, providing a rich source for audio-visual simulations.Arch-OS network tool monitors TCP/IP network traffic without interfering with the speed of the network or transgressing data protection legislation. Quantity and speed of traffic can be monitored as well as direct interactions with the other components of the Arch-OS system through the Arch-OS server.
The system also provides a range of streaming media output and direct access to the Arch-OS server to support interactions with the other Arch-OS elements.
[2] Core:
The control centre for Arch-OS, the central processor, the modeller and visualiser… brain…
The Core processes and manipulates the dynamic data generated by the ‘interface’. The Core computer system uses a data engine which incorporate a range of interactive multimedia applications (video and audio processors, neural networks, generative media, dynamic visualisation and simulation software) which generate a dynamic 3D sonic model of the building and its activities.
The Core data model allows artists, scientists and engineers to manipulate and control the buildings media output which can be broadcast within and between each structure, and out over the internet.
[3] Projects:
Arch-OS Projects are curated and produced by i-DAT.
Downloads
Software Readers:
Arch-OS software downloads have now been moved to the core Operating Systems repository at OP-SY.com.
The i-DAT GitHub account which can be accessed here: OP-SY.com
RSS Feed and Sample Data:
arch-os rss feed
http://www.arch-os.com /livedata/ archive arch-os rss feed
2013-11-07 01:08:58WindVane 237.07
2013-11-07 01:08:58WindSpeed 2.08
2013-11-07 01:08:58TempGrdBlockC 20.17
2013-11-07 01:08:58TempGrdBlockB 20.52
2013-11-07 01:08:57TempGrdBlockA 20.52
2013-11-07 01:08:57Temp5thBlockC 21.12
2013-11-07 01:08:57Temp5thBlockB 21.45
2013-11-07 01:08:57Temp5thBlockA 21.35
2013-11-07 01:08:57Temp3rdBlockC 21.12
2013-11-07 01:08:56Temp3rdBlockB 16.12
2013-11-07 01:08:56Temp3rdBlockA 20.52
2013-11-07 01:08:56SupplyAirTemp 0.0
2013-11-07 01:08:56SubMeterBlockC 282.48
2013-11-07 01:08:56SubMeterBlockB 322.48
2013-11-07 01:08:55SubMeterBlockA -12.44
2013-11-07 01:08:55RainSensor 16.12
2013-11-07 01:08:55OutsideAirTemp 11.65
2013-11-07 01:08:55OutsideAirHumid 89.16
2013-11-07 01:08:55MainsColdWater 0.0
2013-11-07 01:08:54KitchenMCW 13.85
2013-11-07 01:08:54KitchenHotWater 49.74
2013-11-07 01:08:54FlowTempBlockC 41.75
2013-11-07 01:08:54FlowTempBlockB 22.92
2013-11-07 01:08:53FlowTempBlockA 23.87
2013-11-07 01:08:53DHWS 4.11
2013-11-07 01:08:53CtrlValveBlockC 0.0
2013-11-07 01:08:53CtrlValveBlockB 0.0
2013-11-07 01:08:53CtrlValveBlockA 0.0
2013-11-07 01:08:52CO2BlockC 2.00
2013-11-07 01:08:52CO2BlockB 2.00
2013-11-07 01:08:52CO2BlockA 2.50
2013-11-07 01:08:52AirTempBlockC 18.12
2013-11-07 01:08:52AirTempBlockB 18.25
2013-11-07 01:08:51AirTempBlockA 15.81
2013-11-07 01:08:51AirHumidBlockC 75.97
2013-11-07 01:08:51AirHumidBlockB 98.09
2013-11-07 01:08:51AirHumidBlockA 67.19
Media:
Arch-OS Simulations: Sound / People / (Phil Webster)
Documents:
Phillips, M. F.A.Q.2 Sao Paulo, 2009 Edit / Full ebook.
Speed, C. Entropic Navigation, Consciousness Reframed, Perth. August 2002. ISBN 1-74067-272-0
Projects
Sloth-bot View project
Random Lift Button View project
i-500 View project
Arch-OS Workshops View project
NOOGY View project
Residencies View project
Psychometric Architecture View project
Read-Write-Fold View project
Water/Data Fall View project
Misc Projects View project
Information
Arch-OS development team:
- B Aga, Director of Operations, i-DAT
baga@plymouth.ac.uk - Martin Beck, Researcher in Evolutionary Computation Techniques, Artificial Life, and Collective Intelligence
m.beck@plymouth.ac.uk - Dr Guido Bugmann, Reader in Intelligent Systems
g.bugmann@plymouth.ac.uk - Stavros Didakis, Research Assistant, i-DAT
stavros.didalis@plymouth.ac.uk - Chris Hunt, Research Assistant, i-DAT
christopher.hunt@plymouth.ac.uk - Dr Simon Lock, Technical Producer, i-DAT
simon.lock@plymouth.ac.uk - Dawn Melville, Director of Operations, i-DAT
dawn.melville@plymouth.ac.uk - Lee Nutbean: Research Assistant in i-DAT
lnutbean@hotmail.co.uk - Mike Phillips, Director of Research, i-DAT and Operating Systems Project Manager.
mike.phillips@plymouth.ac.uk
Many thanks to all the researchers and students who have contributed to the Arch-OS Systems projects over the years. Individual contributions are acknowledged alongside projects and software downloads. Special thanks for Professor Chris Speed, George Grinstead, Adrian Ward and Peter Anders for being there at the beginning.
Arch-OS project collaborators
The Arch-OS project has been developed through a series of collaborations with Architects, Engineers, Digital Media Designers and Artists, including:
- Artsource
http://www.artsource.net.au - IBM Smarter Planet
http://www.ibm.com/smarterplanet/uk/en/ - John Curtin Gallery
http://johncurtingallery.curtin.edu.au/ - Woods Bagot Architects
http://www.woodsbagot.com/ - Feilden Clegg Bradley Architects
www.feildenclegg.com - Buro Happold
www.burohappold.com - Nightingale Associates
www.nightingaleassociates.com - Hoare Lea
www.hoarelea.com - DrMM (Derijke Marsh Morgan)
www.drmm.co.uk - Signwave
- limbomedia.
- CASM Group.
The original Portland Square installation was developed in partnership with:
- Exeter Healthcare Arts
- Peninsula Medical School partners (Truro, Exeter, Plymouth): http://www.pcmd.ac.uk/
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