Emergency response agencies are adding Sensor-2-Server (S2S) communication technologies to their tool belt, thus changing the way our local municipalities operate. As we head in the direction of a more connected world through the Internet of Things (IoT), we see increased efficiencies within our cities and local government operations. For example, municipalities can leverage S2S technology for monitoring and control of their traffic management systems to improve flow of traffic to support community growth or pain points within the local traffic infrastructure.

These Smart City types of applications also extend into emergency response. Large scale emergency situations and natural disasters often lead to disabled or overloaded cell towers and disconnected Wi-Fi. When all forms of communication are severed, first responders face the challenge of conducting rescue efforts with extremely limited visibility into identifying which locations require immediate help and conditions of the affected locations.

If local government or municipalities leverage Smart City applications to stay online during emergency and disaster recovery situations, response times increase, risk decreases and lives can be saved. A Sensor-2-Server (S2S) solution robust enough to maintain communications during worst case scenarios will provide a mission critical communication link that keeps responders connected. Further, solutions that support voice, video, data and sensor (VVDS) information can aid in complete, accurate assessment during the emergency as well as detailed follow-up after emergencies and disasters are over.

Finding a New Solution for Emergency Response

Secure wireless communications are a key component to successful emergency response and disaster recovery for Smart Cities. With technology specifically built for harsh outdoor, industrial locations and proven to perform under the most extreme environmental conditions, local governments and municipalities can create emergency response and disaster recovery protocols that would significantly reduce collateral damage. Wireless shorthaul communications solutions with robust Wi-Fi links support VVDS, giving responders a substantial advantage during emergency situations. In a situation where every moment counts, having that connection could make the difference in saving someone’s life.

Benefits of Leveraging S2S Solutions with Emergency Response Agencies

Functioning even when power outages are plaguing a city, there are a number of ways a Sensor-2-Server type of network can be leveraged by the local government:

Reduce Risks

Significantly reduce the risk of injury for firefighters and first responders. By leveraging video, responders can examine and assess damage after a weather-related incident without having to enter unsafe buildings or areas.

Assess the Situation

Streamline the post disaster assessment by first responders from all directions and relay critical information to headquarters. By leveraging voice and video capabilities responders get an accurate assessment of a situation from every angle and create a faster, safer evaluation than a manual process.

Increase Response Time

When communication networks are down, emergency crews can leverage the secure wireless edge network. Emergency crews can respond faster because messages and instructions are relayed via VVDS rather than manually.

Protected Data

Keep unwanted parties out of the network. Leverage secure encryption capabilities to prevent data hijacking and increase network security. Some solutions will offer a secure, dedicated channel for emergency communications that does not interfere with tactical plans.

When a municipality becomes a Smart City, first responders can be highly effective and are better able to protect themselves from the dangerous situations they face. As S2S communications shape the future of municipal communication networks, voice and video can be incorporated into the network. With this new, rich data, emergency management teams can enhance their emergency response protocol and improve emergency planning.