A firm under the Hong Kong Smart Government Innovation Lab recently announced the launch of a new solution. The innovation is now ready to be acquired by companies and institutions.
Solution description
The solution, called VR Fire Drill Training, is a disaster training device that can simulate disaster escape from a fire scene in VR (virtual reality) environment, suitable for people over 13 years old.
Information can be obtained through the VR experience which includes:
- Interactions with blurry surroundings in the event of a fire (black smoke)
- Users’ ability to follow the emergency lighting instructions to determine the correct escape route
- A simulation where users squat down and walk as much as possible to the nearest escape
- Alerts to remind users to not breathe directly, use a (wet) handkerchief or towel to cover their mouth and nose
Summary of experience:
- In the virtual experience, users will experience how to escape in a building full of black smoke and fire
- From the VR head-mounted display, they can experience a 360-degree realistic scene
- The viewing angle can be moved by the controller (the experience takes about 3 minutes)
Application Areas
The solution was designed to be applied in the areas of City Management as well as Environment.
Technologies Used
The solution employs Virtual Reality.
Use case
The use of virtual reality to imitate fire situations to conduct fire escape drills can reduce the time for implementing real fire drills. For example, government departments do not need to leave the workplace. Users can take turns using portable VR devices to experience fire situations and learn how to escape skills. It can also be used in schools, gymnasiums and commercial organizations, etc.
Propelling CEM technology
According to Everbridge, a critical event is a disruptive incident which poses serious risk or threat to assets or people. An effective Critical Event Management program and strategy is an integrated, end-to-end process that enables organizations to significantly speed up responses to critical events and improve outcomes by mitigating or eliminating the impact of a threat.
This means business continuity, disaster recovery, active assailant, emergency response, natural disaster, IT incident risk management, and mass notification are all rolled up into an easy-to-execute, strategic plan with long-term benefits.
The aforementioned solution is an example of a Critical Event Management solution. A CEM platform uses technology to take manual processes and automate them. Amplifying ad hoc data feeds to provide richer intelligence and correlating threats with locations of assets and people, ensures more rapid and comprehensive incident assessment and remediation.
Critical event management has come to the fore with the pandemic. Forecasting, planning and management of critical events help organisations and authorities prevent disruption of life and damage to property.
Governments rely on several, specific systems for critical event management. Such programmes are essential to national well-being especially with the increase in natural disasters. But, more often than not, they operate in isolation of each other. According to world experts in Critical Event Management – Everbridge, this siloed approach can create duplication in information and processes, data contradictions and, when unchecked, could lead to loss of life and damages.
Everbridge’s software automates the key steps for responding to a critical event. It aggregates threat data from third-party and internal sources so customers can assess risk, and locate people and assets at risk and those needed to respond.
It then enables customers to act by executing pre-defined processes based on the type of threat for who should be contacted and how what message to send, and who to escalate to if a responder is not available.
Everbridge’s platform then sends out notifications and instructions via text, voice, email—over 100 modalities—in 15 languages as needed, organizes conference bridges for people to collaborate, and analyzes return messages. Automating these steps enables them to be completed quickly, highly reliably and at scale at a time when minutes often matter.