Contact Us   -   +1 613 271 4400        Support Centre

Introduction

EION had the opportunity to demonstrate the superior abilities of TrustLink Technology to combat interference in direct head-to-head tests against the competition. These tests were performed by one of our customers in a live deployment scenario in a densely populated area. As much as possible this test re-created real life conditions where multiple products from different vendors could be co-located on the same tower. In the testing, EION StarPlus products were pitted against products we will call “Competitor-A” and “Competitor-B” in a series of interference tests.

About TrustLink™

TrustLink is a technology developed by EION Wireless for the delivery of high throughput, outdoor, multimedia rich applications in the unlicensed band. TrustLink Technology provides interference mitigation, increased system performance, low latency and Quality of Experience. EION’s StarPlus family of products use TrustLink exclusively to deliver highly reliable broadband communications.

Testing Method

The main objective of these tests was for our customer to observe the link stability of EION Wireless products when contending with interference from competitor radios.

For the head-to-head testing, EION base stations were co-located alongside the competitor base station products on the same pole. Similarly all the CPEs were mounted at the same location at the other side of the link, also on the same pole.

The link distance between the base stations and CPEs was 1000 meters, and the EIRP was set to a maximum of +36 dBm on all equipment. For these tests, the operating channel chosen was 5845 MHz.

For each test, the radios were made operational on the same channel so that they would intentionally interfere with each other. The initial test was to verify if a link could be established with both radios operational in standby mode. Then once a link was made operational, traffic was passed between the base station and the CPE in order to test the performance of the link under interference conditions.

Conclusion

Based on the results of the head-to-head testing, EION was able to clearly demonstrate the superior interference handling capabilities of StarPlus with TrustLink technology when faced with interference from competing technologies. This capability enables customers to be confident of the reliability and performance of EION products when deployed in densely populated urban environments where multiple sources of destructive interference are present.

The Wireless Networking Landscape

A department in the Canadian Federal Government had a security requirement for a large amount of data to be networked as part of a new surveillance and monitoring system. Engineers working on the project were tasked with finding a solution that was cost effective, provided adequate throughput, and met the strict security requirements of the federal government. This paper tells the story of how the right combination of experience and equipment led to the successful deployment of several wireless backhaul links in a city environment.

The Customer

The Canadian Government is a large and experienced purchaser. In 2004 they issued more than 42,000 contract documents worth a total of $16.8 billion. Of that budget, over $500 million was devoted to IT services such as; messaging services handling some two million messages per month, mobile and fixed satellite services to 30 departments across Canada, and telecommunications network services to virtually all departments and agencies in the government. The Canadian government lists security and privacy as key priorities in all of their IT services.

The Challenge

A large amount of data for a security system covering multiple branch locations needed to be linked to a central command centre. The high-bandwidth data consisted of the following applications:

  • Live feed from high-resolution video cameras

  • Pan, Zoom, Tilt control for video cameras

  • Motion Sensor reporting

  • HVAC Monitoring

  • Smoke Detector and Fire Protection System feedback

The primary requirement for this project was a solution that had the required security to handle a large amount of sensitive data. In addition to the security requirement, the solution needed to guarantee the required real-time throughput for all applications, during all environmental conditions - even a Canadian Winter. The engineering team working on this project had to find a solution that was:

Along with the installed network, the customer requested a detailed system performance report clearly demonstrating that the system capacity was met.

  • Secure

  • Highly Reliable

  • Cost Effective

  • HVAC Monitoring

  • Easy to Install

The Journey

The team working on this project first compared the cost of leasing a line from a telecom carrier with the cost of purchasing wireless backhaul equipment. Examining the primary requirement - security- the wireless solution presented many advantages over a leased line. By purchasing a wireless system, the government would have complete control over the network and would be able to achieve 100% isolation from; other government departments, public carriers, the Internet, and even their own internal network. Although wireless backhaul systems operate on the unlicensed spectrum, proprietary transport protocols make the unwanted interception of data almost impossible. For increased security the data can be further encrypted using AES or other encryption methods. Taking cost into consideration the team determined that a leased line would cost approximately twice as much per month as the entire wireless system would cost to purchase. Purchasing the equipment would be a one time expenditure and would give the user complete end-to-end control of their network. Since broadband wireless equipment operates in the unlicensed radio spectrum, no registration is required to operate, and radio deployment can be completed in hours. Comparing the wired vs. wireless options, it was easy for the team to see that the best solution, taking into account; total cost, ease of installation and security, would be a wireless backhaul system operating in the unlicensed band.

The Solution

EION Wireless was selected as the equipment provider for the backhaul requirement of the surveillance and monitoring network in cooperation with partner, FirstComm Wireless. EION Wireless is a global provider of broadband wireless equipment and has a strong reputation for supplying rugged wireless solutions. EION has a deep knowledge of wireless networks and possesses the technical competency required by the government to provide and qualify the network. The network would need to backhaul data from three branch sites to one central command centre located in the downtown core. Detailed site surveying confirmed that it would be impossible to transmit data directly point-to-point to each branch site, since high-rise office buildings in the downtown core were blocking the line of sight. A plan was developed placing the radio links avoiding this area. This plan, shown in Figure 1, routes the data from sites 1 and 2 through site 3. Two products from the EION Rugged Wireless Communications

Solution were selected to accomplish the communications tasks; two pairs of EION Ranger 5110 for the lower bandwidth links and two pairs of EION Ranger 5050 for the high capacity links. The EION Ranger 5110 is a complete and robust wireless 5.8 GHz Pointto- Point system that provides a transparent Layer-2 bridge to link two points. Each unit consists of a high-gain antenna and radio integrated into a rugged outdoor enclosure delivering 23 dBm of power to the antenna. Because the radio is located next to the antenna, extending the Ethernet cable does not affect the operating range - simplifying deployment options. EION’s Ranger 5050 Wireless Bridge is capable of delivering up to 28 Mbps of throughput with a range of up to 15 km. This range can be further extended by the use of external antennas. Multiple security mechanisms built in to the unit protect enterprise privacy. The Ranger 5050 incorporates hardware and software features that reduce labour costs associated with initial deployment and post-sales maintenance. Temperatures in the installed region can regularly fall below -30° C in the winter, making a robust solution very important in this project. The Ranger 5050 and Ranger 5110 are both engineered for rugged and reliable outdoor operation.

Implementation

Prior to installation EION performed extensive testing in order to be confident that the customer would be presented with a complete working solution that satisfied all the requirements of the project. The results of these tests have been published in a separate EION report titled ‘Performance Study: Ranger Wireless Bridges.’ Before delivery, all equipment was pre-configured in EION labs to allow for straightforward installation on-site by FirstComm Wireless.

FirstComm Wireless prepared the sites with pole mounts for the radios using different configurations, including non-penetrating roof mounts depending on the building requirements. Special permission had to be obtained by the installation team to access the roof of each building. This approval process ended up being the most time consuming portion of the installation and the limiting factor in the installation timeline.Once the sites had been prepared, it took approximately two hours to install each Ranger unit, fine-tune the frequency, channels and antenna alignment for optimum operating efficiency. During the installation the Ranger 5050 links encountered some initial interference due to existing 5.8 GHz equipment operating in the area. This issue was easily resolved by configuring the Ranger 5050 links to transmit at a frequency not occupied by the interference.

Results

In qualifying the network for the customer, EION exceeded the specifications, delivering 24 Mbps TCP/IP throughput for each Ranger 5050 link and 13 Mbps TCP/IP throughput for each Ranger 5110 link.

Summary

EION equipment was able to fully satisfy the security, bandwidth and reliability requirements of this project; with the flexibility for future expansion of the network. The Canadian Government was provided with a secure, rugged wireless network that is fully operational in all environmental conditions. EION provided the professional services required to prepare a detailed performance report that confirmed all of the project requirements were met. The expertise that EION brought to the project meant that the right equipment was selected and pre-configured for straightforward on-site deployment.

  • Ranger 5050 and Ranger 5110 met the needs of the project

  • System is fully scalable for future growth

  • EION Professional Services provided key information and support

  • FirstComm & EION partnership resulted in customer satisfaction

 

Enterprise solution

Canada’s harsh climate and geography continue to play an integral role in this country’s telecommunications prowess. However, today’s rapid growth in wireless networks across North America is increasingly driven by innovators that are choosing wireless technologies over wired installations for more basic reasons such as convenience, reliability, high speed and low cost. Combined with advances in wireless technologies, these factors are rendering many past wired solutions obsolete. 

Keeping a keen eye on the bottom-line, the Canadian Coast Guard is tackling its connectivity challenges using a wireless system that enables its ships to tap into their network whenever they dock along Ontario’s Great Lakes. With the application of wireless spread spectrum technology from Ottawa’s EION Wireless, seagoing personnel can now review E-mail and access the Internet, as well as the Federal Government’s intranet, without a wired land connection.

Bitterly cold temperatures and icy conditions have long hampered attempts to improve shore-based communications. Prior to adopting wireless, docked ships used landlines to connect to a local LAN to access information from one of 11 dedicated servers. However, cables often broke due to the extreme temperatures, frequent handling or after being damaged by heavy equipment. The Canadian Coast Guard began using wireless technology around the year 2000. Prior to that, the organization was budgeting approximately $100,000 per base and $15,000 per vessel for a fibre optic drop. Realizing that fibre optics would be cost-prohibitive and carry heavy front-end work, the Coast Guard decided on a wireless solution.

“There’s no real comparison between our wireless implementation and wiring a Coast Guard base with fibre optics. First, you have to hope there is a big enough conduit to put a line out to a pier. If not, installing the conduit would entail hiring a construction company. That involves a lot of work and expense even before you factor in the cost of fibre optic cable. With a wireless network, you hook it up once and that’s it.” Roger Doucett, Acting Chief, Ship Electronics. 

The six base units located at Prescott, Burlington, Amherstburg, Sarnia, Parry Sound and Thunder Bay cost the Coast Guard about one-third of the amount needed to outfit a vessel with cable and just one-twentieth of the cost of a land cable. 

Currently, four Canadian Coast Guard Ships—CCGS Samuel Risley, CCGS Griffon, CCGS Simcoe and CCGS Limnos—have this system installed on board. When ships approach port, the EION equipment automatically connects; the wireless products on shore are programmed with a table of each ship’s “address” and constantly emit a secure signal that connects with each ship’s signal when it enters a one-kilometer zone.

“We move around quite a lot—from Lake Erie to Lake Superior—and we anchor at islands throughout the journey. Thanks to our wireless technology, we no longer have to plug anything in.”

Arthur Coughtry,

Acting Chief Engineer of the 69.7 metre CCGS

Samuel Risley

The Risley serves as an icebreaker on Lake Erie, Lake Superior and the other Great Lakes from December through April, depending on the weather. Coughtry and his crew spend 28 days at sea before being replaced by a second crew, so reliable communication is vital for handling unexpected changes such as emergency search and rescue operations. 

The Cost Guard’s VHF radiophone and cellular phones are still used for the verbal communication as well as facsimile transmission from the middle of the Great Lakes. But the benefits of wireless spread spectrum technology are eroding the use of cell technology as the wireless data transmissions are secure and can be transmitted with little or no interference. The 2 Mbps data rate means the wireless transmissions are twice as fast as theformer system, and since only one ship is typically in port at any one time, ships have full access to the bandwidth.

Coughtry and his crew use their computers to retrieve information from suppliers, for example, and receive engineering expertise from the Internet. Daily news is also available from news sites and electronic papers.

“The Wireless Net is a superb tool. It’s fast—about twice the speed of the old system.”

Coughtry,

23 years of experience with the Coast Guard

We have 51 guests and no members online

© 2016 EION Inc.