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Earthquake Observation System - List of Manufacturers, Suppliers, Companies and Products

Earthquake Observation System Product List

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Centralized management of damage conditions across wide areas and multiple locations - IoT Earthquake Observation Service

Centralized management of damage conditions across wide areas and multiple locations - IoT Earthquake Observation Service

Centralized management of damage situations across wide areas and multiple locations! Providing a total system from seismometers for measurement to cloud services and notification functions for sharing!

The IoT earthquake observation service is a service that allows for centralized management of damage conditions across a wide area and multiple locations. It provides a total system from seismometers for measurement to cloud services and notification functions for sharing. - Centralized management of damage conditions at each facility in the cloud - A total system from seismometers for measurement to cloud services and notification functions for sharing *For more details, please check the related links below or contact us.*

  • Other measurement, recording and measuring instruments

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VR Earthquake Experience Device with Infinite Menu Options: Earthquake Zabuton + SYNCVR

VR Earthquake Experience Device with Infinite Menu Options: Earthquake Zabuton + SYNCVR

If there are earthquake motion records, a realistic VR earthquake experience tailored to the building and its height is possible!

With "Earthquake Zabuton + SYNCVR," you can input any earthquake motion record in a specified format to experience a realistic VR earthquake simulation tailored to the building and its height. In addition to earthquake experiences for disaster prevention training and BCP training using past earthquake observation records, it has become easier to provide earthquake experiences using building response analysis records, allowing for clear communication of differences in indoor damage and seismic performance based on building structure. 【Main Features】 ■ Infinite number of VR earthquake experiences ■ Promotes the utilization of earthquake motion records ■ Zero cost for adding new experience menus *For more details, please check the related links below or contact us.

  • Other services

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[Case Study] Centralized Management of Damage Situations at Logistics Centers Nationwide

[Case Study] Centralized Management of Damage Situations at Logistics Centers Nationwide

The introduction of IoT earthquake observation services further strengthens the supply chain.

【Overview】 ■Purpose: Understanding the damage situation at logistics bases nationwide and strengthening initial response ■Related Product: IoT Earthquake Observation Service ■Scope of Provision: Complete set of equipment, implementation support, operational support, service provision 【Background and Challenges】 Many of the products handled by Trusco Nakayama are used for disaster prevention. In the past, even when a certain region was affected by a disaster, a backup system was established at bases in other regions. However, since earthquakes can occur anywhere in the country and the impact of a major earthquake can be devastating, countermeasures are essential. 【Implementation Effects】 - Previously, damage assessments and various response decisions were based on seismic intensity information from the Japan Meteorological Agency. After implementation, it became possible to conduct pre-assessments of potential damage based on accurate seismic intensity information for the target buildings, allowing for estimates of accessibility and the number of personnel and time needed for damage assessments. - The ability to observe seismic intensity information in real-time 24 hours a day made it easier to visualize the damage situation even from a distance, facilitating initial response efforts.

  • Other measurement, recording and measuring instruments
  • Other information systems

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Extreme Environment Robot Research Institute [HERO Lab.]

Extreme Environment Robot Research Institute [HERO Lab.]

Bringing unprecedented robots into practical use and contributing to solving challenges in extreme environments.

The Extreme Environment Robot Research Institute (HERO Lab) is an organization aimed at the research and development of decommissioning robots that can operate in environments where humans cannot enter, such as the Fukushima Daiichi Nuclear Power Plant. Founded in 2020, it welcomed Professor Shigeo Hirose, an honorary professor at Tokyo Institute of Technology and the first recipient of the Pioneer in Robotics and Automation Award from the IEEE Robotics & Automation Society, as its director. We aim to contribute to society by solving significantly difficult and diverse problems that no one in the world has yet found solutions for through creative robot development. *For more details, please check the related links below or contact us.*

  • Other industrial robots
  • Mechanical Design

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[Case Study] Earthquake Disaster Prevention System Supporting Industry-Leading Disaster Response

[Case Study] Earthquake Disaster Prevention System Supporting Industry-Leading Disaster Response

Gathering damage information from approximately 100 office buildings and establishing a system that can be accessed anytime, anywhere.

【Overview】 ■Purpose: Assessment of building integrity ■Category: Measurement, Earthquake Disaster Prevention, Emergency Earthquake Alerts ■Related Products: VissQ ■Scope of Provision: System design, complete equipment set, installation and adjustment, maintenance 【Purpose of Introduction】 Mitsui Fudosan Co., Ltd. has introduced this system to enable appropriate evacuation instructions and the provision of safety and security information to building users based on quantitative judgment criteria, even immediately after a major earthquake, without the need for expert knowledge. 【Provided System】 By installing seismometers in each building, we visualize the building's shaking and provide the systems "VissQ-Pro" and "VissQ-Lite" to support the safety and security of people and buildings during an earthquake. Additionally, we offer the "VissQ Web Service," which aggregates and manages measurement and evaluation results from each building in a cloud system. Both the field (VissQ in each building) and the headquarters (VissQ Web Service) support Mitsui Fudosan's disaster response.

  • Other measurement, recording and measuring instruments

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[Case Study] Streamlining In-House Seismic Intensity Reporting and Accelerating Initial Response After an Earthquake

[Case Study] Streamlining In-House Seismic Intensity Reporting and Accelerating Initial Response After an Earthquake

Realization of rapid initial response through automation of situation reporting tasks in IoT earthquake observation services.

**Overview** ■Purpose: To streamline the situation reporting process during earthquakes ■Category: IoT Earthquake Observation Service ■Related Products: IoT Earthquake Observation Service ■Scope of Provision: Complete set of equipment, implementation support, operational support, service provision **Background and Challenges** JFE Steel Corporation's East Japan Works (Chiba Area) covers an area of approximately 7.65 million m² (equivalent to about 165 Tokyo Domes) and employs around 11,000 people, including group and partner companies. In the Chiba area, multiple seismometers were installed throughout the factory to implement initial response measures as defined for each seismic intensity. However, the conventional seismometers required on-site data verification by personnel, resulting in a reporting time of about 20 minutes. **Effects After Implementation** The on-site earthquake verification and email reporting processes during an earthquake have been automated, leading to improved operational efficiency. In particular, the time required for internal situation reporting has been reduced, enabling immediate responses to damage assessments, operational adjustments, and requests for support to other areas. Additionally, employees who were previously involved in this task can now focus on other responses immediately after an earthquake occurs.

  • Other measurement, recording and measuring instruments
  • Other information systems

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