Motorola Solutions announces new mobile radio, enhancements to its P25 platform

Motorola Solutions are busy re-modelling their business at the moment and are under pressure from many other radio manufacturers, that are stealing away their market share. They are moving towards creating equipment that can use the LTE, essentially competing with the mobile phone market. This will be seen by many as a move away from the essence of two way radios, but it is an inevitable progression. This new radio will use current motorola earpieces, chargers and batteries. We brought you this article from the urgentcomms websites

Motorola Solutions today will unveil a new P25 mobile radio that operates on its ASTRO 25 systems and will highlight key features enabled by the 7.17 release of ASTRO 25 software today at APCO 2016.

One of the key features of the APX 8500 all-band mobile radio is its ability to leverage LTE connectivity from a VML750 modem installed in the public-safety vehicle, if the ASTRO 25 data capability is interrupted by continuous voice transmissions during a busy incident, according to Anatoly Delm, Motorola Solutions’ director of global infrastructure marketing.

“Let’s say that you have a major incident, everybody’s talking all the time and the ASTRO network is being used all the time, it can [offload] some of the data communications, like GPS, to broadband—public-safety LTE or commercial LTE, depending on what the modem is operating on,” Delm said during an interview with IWCE’s Urgent Communications.

“So, you’ve got this combination of the best of both worlds, where your voice communications are continuing over the ASTRO network, and your data communications—if the ASTRO network is too busy, because of a major incident—can be carried on by an LTE network from the same car.”

Meanwhile, the 7.17 release of ASTRO 25 software will provide system users and operators with features that are designed to improve the reliability and usability of the P25 network, Delm said.

One enhancement is a more efficient way to execute over-the-air software updates, Delm said.

“Ordinarily, what happens is that the software update has to travel to one radio at a time. If you’ve got a large enough fleet, it could take days or possibly weeks [to complete the software update for all radios],” he said. “In this case, the software is being continuously broadcast, kind of like on repeat. In the meantime, all of the radios continue to function as normal—you can talk on them, and none of the functions are disrupted.

“Once a radio has received all of the packets that it needs, it can then give the user the [a notification] that the update is ready and asks whether the user wants to install it. If they say ‘Yes,’ then the radio is updated. This means you can reduce your update time to maybe a few hours, depending on the size of your fleet. But you certainly don’t have to do it one at a time.”

Other new capabilities included in the latest ASTRO 25 software release include personnel accountability—often used for roll-call functionality on a fireground or other incident scene—over trunked systems, Delm said. Previously, this capability existed only in conventional mode.

How GPS Tracking Works

GPS (Global Positioning System) is a network of 24 satellites placed in orbit for navigation purposes. It was invented in 1960 and positioned by the US Department of Defense for military work but later released to the public as well. GPS navigation system works 24 hours a day anywhere in the world, and is free to use. The system sends signals to navigation devices to calculate the exact location, time and speed of a vehicle, person, aircraft or water equipment. Today it’s used widely by drivers, trucking companies, and shipping firms to track their cargo and know the best route to use.

How GPS Tracking Works

There are at least four satellites available anywhere one stands on earth. All the satellites circle the earth two times a day and send signals to various areas. Any GPS receiver including mobile phones takes this signal information and calculates the user’s location.

How this method works involves calculating the difference between when the signal was sent and when it was received. This difference tells the receiver how far the satellite is, and the distance comparison of several satellites within the same area confirms the location on the electronic map.

The more satellites found within a receiver’s location, the easier it is to calculate speed, distance, and destination. At least three satellites are needed to calculate position, but a fourth satellite makes it possible to tell the speed, direction and estimated time when you are on the move.

Personal Tracking

Mobile GPS technology has made it possible to track people wherever they are. Today any phone can be tracked by the police or mobile service providers. Other mobile devices that help with tracking include jewellery such as watches, bracelets and even chips embedded in the skin.

Smartphones are also equipped with built-in GPS system that can provide the user with direction and navigation instructions. Most of these phones can tell you exactly where you are, including streets and attraction figures. They can alert you if you are going the wrong direction and give you the correct navigation.

Asset Tracking

It is so easy to track your cargo when it’s on the go. A tracking device or chip can be placed on the assets to know exactly where they are, the direction they are heading and when movement stops. Animal tracking devices are also commonly used to locate where cattle and wildlife are all the time.

Aircraft Trackers

GPS aircraft tracking is essential for both private and commercial planes. Though the primary agenda is safety and convenience, GPS works differently on the aircraft as compared to how it’s used in cars. Aircraft tracking enables traffic controllers to know the position of the plane and keep it safe when flying.

GPS also help the supervisors know when the plane will arrive and find it in the case of an accident. However, the greatest use of GPS tracker in aircraft is to ensure the pilot follows a particular path predetermined by the aircraft controller.

Vehicle Tracking

A GPS-enabled tracking device is placed on a vehicle to transmit data through cellular or satellite networks. This device will send the data to a chosen application such as NetTrack for the user to read. The tracking updates and information such as location, speed, direction and stop come in real-time.

GPS tracking system for vehicles enables people to track their cars when they are stolen, keep a tab on your business tracks and know where your child is with the car. It’s an easy and convenient way to keep track of vehicles, be it trucks, small vehicles or fleet of buses.

GPS and Two-Way Radio Integration

Two way radios are great devices used by campers, police force, and emergency dispatch for safety, tracking, and communication. However, they have shortcomings such as lack of real-time transmission, slow updates and being unreliable. Two way radio with GPS makers such as Garmin has integrated their systems with GPS capabilities. The GPS will help to know where someone is at all times even when the device is off, update locations in real time and store data for future use. It’s also handy in case of emergencies to get help and aid search activities.

UK Law

In the United States and most of the other developed countries, the use of GPS tracker by government authorities is limited. They must have a search warrant. Otherwise, any data found will not be admissible in court.

However, UK Law has no specific legislation on GPS trackers. The United Kingdom does recognize that some information is personal data, but it allows government surveillance without permission.