On the move: kinetic mesh private wireless networks - Robert Schena
Robert Schena, CEO and founder of Rajant Corporation, a private wireless-network provider and mobile-networking pioneer, explains how private wireless networks specifically designed for mobile, rugged environments will provide new levels of communications excellence.
In major metropolitan cities like Chicago, city dwellers who take public transportation come to rely on apps that track the arrivals of trains and buses. Failure of the technology that informs these apps is a big deal when passengers must get to work or to an appointment on time. If the app indicates that the next bus will arrive in five minutes and it does not arrive for an additional ten, then passengers have few alternatives.
Kinetic mesh private wireless networks offer a modern solution. They are equipped with technology that makes them a 'living network' of sorts. Nodes communicate with each other rather than relying on a single controller node to drive communication. They possess the flexibility to transmit and receive data through myriad connectivity solutions, including LTE, satellite, point-to-point wireless or wired networks. This allows the network to rebuild and 'heal' itself based on available wireless nodes. There is no single point of failure. As a result, vehicles can maintain a nearly steady stream of communication with operations centres, aiding in applications such as arrival-time tracking. The transit authority can monitor each vehicle's location, and vehicles can communicate their locations to tracking apps.
Kinetic mesh technology emerged as a result of 9/11 and the tragic results that ensued, including the failure of the communications infrastructure that fateful day. Kinetic mesh enables people and organisations to deploy networks in places where communications infrastructure has lacked in reliability, or to quickly move networks to places where they never existed. In other words, communications infrastructure can be deployed in real time.
Industries in motion
Nodes provide mesh networks with flexibility and stable communications in even the most rugged, mobile environments. Living networks are very adaptable in this way and offer a distinct advantage over networks that require all the brain power to reside in controller nodes. A major disruption in the latter type of network often results in downtime.
This is one reason why kinetic mesh networks thrive when applied to systems with moving parts, so to speak. They are well established in dynamic, rugged industries such as military, mining, and oil and gas. They also have demonstrated success when deployed on commercial freight trains and are a natural fit for their next venture - mass transit. Distance can present limitations in a mass-transit system, but as long as each node can communicate with another node, the network will preserve its integrity.
A well-designed network should never see any disruption of service. When designing mesh networks for mass transit, technical staff account for variables unique to their industry, such as tunnels, subways, train dimensions, node-to-antenna ratios and size of antennae.
Kinetic mesh enables radio technology transmission between trains and the wayside to facilitate communication-based train control (CBTC). Passenger trains that use Wi-Fi are interested in the highest bandwidth possible. Transmitters on trains roam between the vehicle and wayside points. This equates to zero data loss on board the train. The nodes located on the trains communicate with all wayside nodes they can see, connecting and passing data between them all, so that when they do drop a wayside connection, there is no disruption. As a result, where most technologies have roaming times well above 50ms, a kinetic mesh network like Rajant's does not have to roam, as it is always connected and passing data between multiple nodes all the time.
When designing its kinetic mesh technology, Rajant focused on scalability and mobility as the most important attributes. Designing each node to serve as infrastructure enables all devices and the network itself to be mobile. Users can employ nodes on all manner of vehicles, including trucks, buses and trains. In addition, these networks can transmit significant amounts of data - 100Mb or more. The mobile nature of the nodes also enables the aforementioned living network capabilities, giving it the critical ability to re-establish itself.
Kinetic mesh helps promote passenger and pedestrian safety as well. The latter is particularly important in cities like Chicago where train grade-crossings are situated in the middle of a bustling metropolis. For example, if an automobile stalls on the tracks, the sensors accompanying nodes can detect the stalled car and alert engineers miles before the train reaches the crossing, giving them time to slow down or stop the train. With a node on board, vehicles can also transmit information to other vehicles in the mass-transit system, allowing them to function more efficiently and safely. For example, node sensors on buses can detect the presence of other vehicles in the melee that accompanies many big-city rush-hour periods. In this way, they can help prevent crashes.
A network like this can also save lives by keeping track of equipment. The network can aggregate data on board vehicles and send it to the operations centre to analyse vehicle state-of-health and other equipment factors. Taking safety precautions a step further, the node on board each vehicle can monitor situations and alert operators that a valve, seal or motor is overheating well before it does. This could facilitate a significant drop in catastrophic equipment failures.
Mesh networks can even monitor criminal incidents in real time, providing an opportunity to thwart crimes by involving law enforcement officials. Video camera data has historically been stored on board and physically removed from hard drives. Rajant has developed its kinetic mesh technology to enable the seamless capture and transition of that data without having to physically remove data-storage devices. This also promotes easier viewing of evidentiary data for crimes that have already been committed. Rajant offers users the ability to store high-definition video in the network's wireless routers, allowing clearer imaging. Users can easily recover the imagery with the aid of a browser.
In addition, the elimination of security breaches is paramount. Designers must include safeguards against those who seek to take control of a vehicle with sinister intentions. With a solid history of designing wireless network technologies for military operations, Rajant incorporates a high level of security, including configurable-per-hop, per-packet authentication via 256 AES into its technology, giving data and access optimum levels of protection.
Ubiquitous connectivity is growing in importance across industry sectors. The dependency on our communications infrastructure will grow exponentially, and means a renewed focus on reliability and security.
The very nature of kinetic mesh networks - adaptable, smart, productive and dynamic - makes them a perfect fit for the mass-transit industry. The innovative technology behind these living networks will help keep this on-the-move industry up to speed with public needs and expectations.