The On-Site Visualization Consortium is the unique group of researchers, corporates and research-oriented public institutions that share the same missions of not only protecting human lives from potential risks but also optimizing maintenance and management of aging infrastructures, through monitoring and data visualization on-site. Our goal is to contribute to the enhancement of a safer, secure, and enjoyable environment of our daily life and workplaces by establishing a new system for real-time data processing and sharing called “On-Site Visualization” through collaborative efforts by industry, government, and academia. Our final goal is to reduce the number of people who suffer from natural disasters or arbitrary accidents to zero.

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  We are facing a wide variety of threats to our safety that are natural or man-made. People get injured or taken their lives in landslide disasters due to torrential rain or typhoons, accidents at construction sites, accidents of large-scale amusement rides like roller coasters due to inadequate maintenance, accidents due to insufficient strength of buildings and structures, and the collapse of houses due to natural forces from factors such as snow load and flood. In order to detect such risks promptly and notify them to the people to be affected, we need to install various sensors, to process signals of risks from the sensors immediately, and to send the important messages in easy-to-understand forms. However, conventionally available sensors tend to be very costly, and it is impossible to monitor all risk factors at every location. New and unconventional methodology is wanted to realize a safe living environment while securing our safety at a lower cost.

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  To achieve this objective, we have been developing a variety of new sensors. They can be installed at any location, detect changes of any data (e.g. deformation, strain, pressure, temperature, and humidity, etc.), display the changes and their magnitude with LEDs in altering colors, or with alternative visualization methods. Workers on the site as well as people in the neighborhood can visually confirm the changes in real-time. This enables the establishment of totally new disaster-prevention/safety-monitoring systems that are unconventional in many ways. 

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  This methodology has the potential of realizing a totally new information acquiring/disclosure system which can be called “On-Site Visualization”. The methodology of detecting changes around us and visualizing them in altering colors of light on-site can be applied not only to disaster prevention but also to regular safety monitoring of any structure that supports our lives (civil structures, buildings, heavy machinery, large-scale amusement vehicles, etc.). Furthermore, the light colors can be altered in response to the movement of arbitrary structures; so that this methodology can make school education on physics or simple mechanics more enjoyable and may also lead to the creation of a new entertainment tool.

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  Thus, the new concept underlying this new monitoring method using light-emitting sensors can be applied to every safety monitoring program ranging from the prevention of natural disasters to the promotion of safe/secured living environments. A totally new and unconventional system can be structured using an in-situ real-time display of monitored information with altering light colors. Thus, there is a large potential for the very extensive application of this concept by developing a series of sensor models for monitoring a variety of engineering quantities at various scales. Children could also tackle with simpler versions of the OSV sensors for their summer vacation homework.

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  There has been very little disclosure of information to the general public concerning various structures that form our social infrastructure. What to do with these structures have been totally left to administrators and experts. By introducing the “light-emitting sensors” to these structures, we will start living in the environment of “ultimate 24-hour information disclosure,” a whole new living environment that no country in the world has ever experienced before. In order for us to establish such a new concept in our society and to create a safer/securer environment in a rational way, unceasing cooperative efforts and information exchange between experts and the general public are essential.

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  This new concept requires designers and administrators of infrastructures to determine where to install the light-emitting sensors and how to design displacement levels and associated colors of light for securing the safety of users of those structures (e.g. neighborhood residents, audience, and general passerby). The neighborhood residents are required to learn about displacements, color changes, and risk levels and to participate in periodical evacuation drills, so that they can protect themselves by looking at the color of the light emitted from the sensors and promptly report risks to the administrators. They are going to be required to “judge safety in their imminent environment by themselves” that used to be left to administrators and experts. The “light-emitting sensors” will enable people to make such judgment.

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  The OSV Consortium was established on January 9th, 2010 for the purposes of promoting OSV through participation by industry, government, academia, and individual citizens and creating a venue for free and active discussions, implementations, information exchanges, and human interactions for national and international proliferation of the innovative concept of “On-Site Visualization”. We will continue our efforts and expand the human network to promote the development and application of more effective low-cost sensors finally to win safety for all citizens in the world in the OSV way.