HD Live Video with the Vorbeck HD4 Harness

drop nodes

The Vorbeck HD4 Harness is a wearable communication system. It has the bandwidth to carry real-time, high quality streaming video, audio and data through the network.

HD video harness

Incident command can connect to the camera on the Harness using a wireless device, such as a PC or monitor.

The Harness automatically forms a secure, self-healing network with other Harnesses and Drop Nodes. The network is powered by Rajant InstaMesh technology, which enables ad-hoc networks of Harnesses and Drop Nodes. This connects team members and incident command in environments that usually have no RF signal, such as tunnels, skyscrapers and basements.

Vorbeck’s body worn communications system acts as a WiFi hotspot. Any team member with a mobile device, and the correct authorisation, can view another member’s video feed. This provides constant remote monitoring of situations and vital communications with subject matter experts, who can advise them in real-time.

On the image on the right you can see:

 

Having the ability to send and receive live video footage between team members and Incident Command gives full transparency of the operation, thereby improving safety and efficiency for all those involved.

The Harness includes:

Network

 

wearable communication system

Video 

Battery

Voice

Rajant Case Study – Phosphate Mining Company

 

Phosphate mining company, Mosaic, needed a way to optimise production and reduce its environmental footprint at its Four Corners mining facility.

Mosaic’s Four Corners Florida mine covers 60,000 acres, and is the largest and most complex centre of operation for the organisation. Multiple, critical applications must always be running simultaneously to maximise efficiency. The mine runs 24 hours a day, 365 days a year, with the phosphate then shipped off to major agricultural centres across the world, and powers a significant chunk of the economic activity in North America.

The mesh network that was being used ran at about 900 MHz, the point-to-point radios had very slow bandwidth and were positioned almost a mile away from each other, which resulted in frequent network interruptions, and in turn, slowed down production.

Four Corners was dependent on draglines, which are constantly moving and come with a high capital cost. One way to minimise costs and error is to set up ruggedized cameras to actively monitor the dragline operations, however, the low-bandwidth network meant only two cameras were able to be supported, which made it difficult to pinpoint issues.

Rajant’s solution

In order to improve the communication network, Mosaic partnered with Rapid Systems, a wireless solution provider, who introduced Rajant’s Kinetic Mesh technology to update the infrastructure.

“Mosaic’s Four Corners is a complex environment because of its large size and infrastructure. It was imperative that we install a resilient wireless network that could support multiple mobile applications without a break,” said Dustin Jurman, CEO of Rapid Systems.

Kinetic Mesh networks are comprised of a number of individual nodes, rather than a static infrastructure. This enables all devices, and the entire network, to be mobile, which is essential in mining facilities where vehicles an equipment are constantly moving.

The mesh network enables multiple radio frequencies between any nodes, which continuously transmits data in real-time via the best possible traffic path.

There is no central control node, which means there is no single point of failure. Routes are constantly monitored for performance, if there is an issue the signal will be instantly rerouted to the next best possible path. This allows the network to adapt to node locations, local interference and congestion.

Once set up, this new solution allowed a number of new applications to be deployed, including company intranet, VoIP phones and video monitoring systems.

“Using Rajant’s wireless network, we have implemented highly functioning command centres with detailed dashboards that allow us to monitor even our mobile gear, such as draglines and pit cars, ensuring that nothing ever sits idle, to maximize productivity.” “Ivan and his team are continually innovating and improving their processes, which makes Mosaic’s Four Corners a unique mining site. The opportunities to add value are endless,” Jurman said.

Most importantly for mining operations, Rajant’s Kinetic Mesh has allowed Mosaic to create and install new applications to boost their commitment to safety. The information that can now be transferred via the network allows operators to continuously track and monitor key performance indicators. Nodes positioned in strategic locations can track mines and important machinery giving them a transparent view of the operation. This improves productivity and also reduces the risk of failures and safety issues.

Benefits of Vorbeck’s HD4 harness in the law enforcement industry

harness

Vorbeck’s HD4 harness is powered by Rajant’s InstaMesh technology, and automatically forms a secure, self-healing network with other HD4 harnesses and Drop Nodes. This helps with situation transparency between SWAT, bomb squad and crowd control operations, as it keeps them all connected with the ability to share data.

The InstaMesh technology allows both harnesses and nodes to connect on an ad-hoc basis, in challenging environments that usually have no RF signal, such as tunnels, skyscrapers and basements. Workforces in the law enforcement industry often find themselves in locations where signal is sparse, it’s essential for them to maintain communication to ensure the safety of the team.

The built-in mesh radio can stream real-time, high-quality video, audio and data from the situation to Command. The vest has built-in Wi-Fi, which allows any team member with a mobile device to access another team member’s video stream, creating the highest level of situational awareness. The network is secure, meaning it’s only accessible to those who have been authorised to do so.

camera

Vorbeck’s drop nodes are also powered by InstaMesh and can be deployed as a low profile package to confined spaces and tunnels. These drop nodes can be used to extend the range of the mesh network and contain a high definition Pan/Tilt/Zoom camera that can be remotely controlled by smartphones and computers. This allows the camera to act as a watchman that can be left at a station to observe a hallway or area of interest, without the need for man power,  and prevents officers being exposed to unnecessary danger.

The audio system built into the vest has two modes: push-to-talk and open-mic. These two modes can be switched over with a quick double tap of the button and back again with a single touch.

Both the harness and the Drop Nodes use rechargeable Li ion batteries that provide 8-10 hours of continuous power, which allows these systems highly mobile and flexible in a number of environmental situations. The used batteries can be swapped for fresh batteries by deployed users when necessary.

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Circular polarised antennas in mining industries

Circular polarisation has opened a new door in underground mining and tunnelling communication. It allows antenna signal to travel through tunnels, avoiding potential obstructions, and creating a reliable signal throughout.

The radio waves transmitted with this type of polarisation are not constrained to just linear or horizontal situations when bouncing off the walls. They create a mirror effect, making a cylinder shape as they travel down the tunnel. The radio waves can radiate around obstacles, enabling them to adapt well in various tunnel dimensions. Circular polarisation prevents these waves from fading, which they are likely to do with vertical and horizontal polarisation, and allows those working in these conditions to maintain constant communication and situational awareness.

The Poynting MinePoynt HELI antennas have been designed for use in mining and tunnelling industries, with patented circular polarisation technology.

There’s been numerous tests performed in mines over the past few years to examine the benefits of using these antennas. One of these tests involved a large train moving through a tunnel. Significant signal loss was expected, but was unchanged due to the way the signal propagated around the obstacle.

Within these tunnels there are lots of potential issues that can affect the strength of the signal, including:

 

The HELI antennas have been designed to overcome these obstructions and maintain a reliable signal within these harsh environments.

TYPES OF POLARISATION

linear polarisation

Linear Polarisation (vertical and horizontal)

 

Circular Polarisation

circular polarisation

 

The MinePoynt HELI range has been established for several years, and is deployed in a number of mines and tunnels across Europe, Australia, Africa, USA, Canada and more. The range offers both dual-band 2.4/5GHz and LTE/5G antennas in a smaller size enclosure compared to their bigger brothers, the popular HELI-3, HELI-4 and HELI- 8. The antennas offer medium to high gain, whilst providing the smallest possible installation height for mounting on tunnel roofs and walls.

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The wireless networks in ports conference 2021

This year, Rajant is a key sponsor of BWCS’s PortComms wireless network conference, which is being held in London on October 7th, 2021.

PortComms is a unique and exciting event, hosting a get-together of main customers and leading suppliers within this fast-moving industry. The conference will be focusing on building fast, reliable wireless networks and driving change in modern ports. It will feature real-world experiences and case studies from port operators, who will be discussing issues they might be facing after implementing wireless connectivity across their complex campuses. This will give you an insight into future plans of market leaders and give you the chance to get involved, join the debate, and discover new product and service opportunities.

Places for this event are extremely limited and selling out fast. Reserve your space now by filling out the online order form here, or contacting ross.parsons@BWCS.com

 

 

 

 

Have you heard of the Rajant MeshMapper?

The MeshMapper is a network performance survey utility that demonstrates the level of Kinetic Mesh connection in a mesh network within specific geographic locations.

The tool produces a connectivity heat map so users can analyse, diagnose, and optimise the performance of the Kinetic Mesh network. It gives network administrators full visibility of the infrastructure and how well the placements cover the active area.

When a BreadCrumb travels through a mesh infrastructure, data is obtained from the node using a GPS device, and is combined with a Signal-to-Noise Ratio (SNR), the cost to each BreadCrumb peer, and the total cost for a live trace. The MeshMapper will then use this data to create a connectivity ‘heat map’ in a KMZ file and it will then be saved onto the BC Commander host.

The file can then be viewed in a KML viewer, such as Google Earth, and the data can be viewed for the trace path, or you can select a data placemark to look at specific information for that location.

This solution gives a visual representation of the coverage and connectivity of a specific area, giving complete visibility of any connection weaknesses in specific areas, this is beneficial for network designers and administrators. The tool automatically generates data files that can be used alongside Google Earth to show how well the network performs over a travelled route.

When the heat map is generated, it is colour coded to show the paths travelled, and to give an assessment of each path. The colours vary depending on the thresholds given to networks and applications. This can be used in roundtrip engineering to validate propagation models and to work out the Total Path Cost between the mobile device and the gateway device to the wired network.

mesh mapper

Above is an example of two travel routes, the colours represent:

Green – Total path cost 10000 or under
Orange – Total path cost 10001 and 20000
Red – Total path cost greater than 20000

Read more here – https://rajant.com/bc-meshmapper-autonomous-operations/

Vorbeck’s HD4 Harness – an overview

Vorbeck’s HD4 Harness provides secure and reliable communications in challenging environments. The vest connects the hot and cold zone to each other, whilst enabling live stream video to subject matter experts, improving safety and effectiveness.

The harness uses Rajant InstaMesh technology to extend communication into tunnels, factors, dams and skyscrapers. It features multi-in multi-out (MIMO), dual frequency RF transceivers, embedded mesh networking software, video and audio connection hub with push-to-speak/open microphone switch and four embedded flexible antennas, as well as a “MOLLE” compatible attachment point for carrying other accessories.

Contact us to find out more about this product – https://www.cmitechnology.com/vorbeck/products/

Rajant’s autonomous technology is changing robotics

Autonomous robots are changing the way industrial tasks are performed by providing a way to complete dangerous tasks in difficult, hazardous environmental conditions on land, air and sea, without the need for human efforts. Robots can complete these tasks, whilst streaming live data to enable real-time situational awareness, using Rajant’s Kinetic Mesh technology. As well as in hazardous conditions, robotics can take over to automate tedious and time-consuming tasks.

Autonomous technology is still often seen globally as a kind of novelty, as it’s still a relatively new prospect. In the past year or so, robots have been used more in the public eye for things such as sports events, deliveries or patrolling public spaces. However, they are known to be an expensive choice and somewhat unreliable, due to connectivity issues, but Rajant is changing the way these systems work and proving that autonomous technology can optimise business workflow and save money in the long run.

Connectivity issues occur when there is a break in the network, that can cause a complete holt to the system. Rajant’s Kinetic Mesh provides constant connectivity, using self-optimising assets. The network is ideal for powering robotics. These systems are becoming operational necessities in some industries, and they will always require a continuous network to be reliable and work at full capacity.

Rajant’s wireless BreadCrumb nodes can be fixed directly onto all robotic assets, providing optimal connectivity that’s required for the system to work. The nodes can hold multiple connections over multiple frequencies, so if a network path becomes unavailable, in-built InstaMesh technology will instantly re-route to the next best available path.

Even at the most basic level, a robot is a computer but on a mobile platform, although they can also be used in a sentinel mode to be stationed in specific locations. When used in conjunction with other robots they provide a lot of value, and can replace the large number of detection points, cameras and sensors that you would otherwise need.

Although robots may be costly, their expense is fractional when compared to the large amount of infrastructure needed to support permanent security devices.

To find out more, please get in touch – https://www.cmitechnology.com/

New partnership – Siemens

We are pleased to announce that we have partnered with Siemens, the world’s leading supplier of identification systems! CMi will be distributing SIMATIC Real Time Location Systems across EMEA.

SIMATIC RTLS is a key component in the digital infrastructure of the factory of the future. It is a scalable locating system, designed specifically for intelligent systems such as mobile robots, AGV’s and state of the art automation software. To optimise workflow, it is vital to be able to locate industrial applications. The system locates all relevant objects with accuracy, in real-time and to the nearest centimetre, whilst making the positioning details available to higher level systems.

SIMATIC RTLS thus makes a precise digital twin of all processes possible – from delivery to further processes and final assembly. The relevant objects are fitted with a transponder, which picks up signals from higher-level systems that calculate its position and provide information to the automation systems and manufacturing units.

The system allows your traditional workflow to be more dynamic, by implementing your digitalisation strategy, which will accelerate your business transformation in production and logistics.