The HYPER G Fixed Wireless solution utilises the very high millimetre wave (mmWave) part of the radio frequency (RF) spectrum for TX/RX, employing frequencies with the V-Band (57-66 GHz) and E-Band (71-76, 81-86 GHz) ranges.
Transmissions in these bands are resilient to adverse weather conditions including rain, fog, dust and air turbulence, and can guarantee data throughput under such deteriorated conditions.
Transmission at 60 GHz has been scientifically tested and shown that it does not penetrate and reflects from a person's skin, and has no effect if it reaches the human eye. Full-body airport scanners utilise the 60 GHz and 70/80 GHz frequencies for their ability to pass through clothing but reflect from the skin, to detect items beneath the clothing.
HYPER G Fixed Wireless technology utilises low power, beam transmission that is focused and point-to-point rather than radiating outward in all directions. Equipment is placed above street level, so there is no interaction between transmissions and people.
Bandwidth
40 Mbps
400 Mbps
1 Gbps
40 Gbps
Computerised Tomography
2 GB
6min 50s
41s
17s
0.5s
Binary alignment/map
140 GB
7h 58min
47min 47s
19min 7s
29s
1hr 30min, 60fps
10.5GB
35min 50s
3min 35s
1min 26s
2s
All transmissions are secured with AES 128 bit encryption preventing data from being compromised or lost in transit, particularly from man-in-the-middle (MITM) attacks.
HYPER G Fixed Wireless networks are deployed as a wide area intranet layer first, enabling local massive, private and secure transmission of data for residents, businesses, and particularly municipal institutions. Public internet access is then provided via next generation access (NGA) that connect the intranet to the wider national and worldwide networks. This approach is taken to increase privacy and security as majority of network traffic originates and terminates in a local vicinity.
HYPER G Fixed Wireless enables channel propagation conditions, as follows: Line-of-Sight (LOS), near Line-of-Sight (nLOS) and Non-Line-of-Sight (NLOS) channel propagation conditions.
As transmissions in the millimetre wave bands are resilient to external interference, transfer of data is assured with no data loss (zero packet loss).
Our network infrastructure employs the Ethernet Ring Protection (ERP) network resiliency protocol to ensure that network connectivity is maintained if a node fails. The remaining nodes in the network take up the load.
With our technology we can offer an SLA with an up-time of up to 99.99%. This represents a downtime of only 52 minutes, 35 seconds within a year. Typically operators only offer an SLA up-time of up to 99.75%, representing a downtime of 21 hours, 54 minutes, 52 seconds.
The network infrastructure is monitored 24 hours a day, 365.25 days per year, utilising intelligent network performance, traffic and security monitoring software to anticipate faults in the network infrastructure and manage the network load.
HYPER G Fixed Wireless enables transmission of data in real time, with latency of only 0.1ms up to 30km, and 0.5ms up to 150km.
They are affixed to structures or on towers with high rigidity, and are able to withstand deflections by the strongest of winds and other factors.
When installed the nodes are unobtrusive, discrete, and take up little space. In particular, the larger backhaul nodes are placed on rooftops out of sight from street level.
And for end customers, particularly home owners, their CPE units (Customer Premises Equipment) can be placed on the window sill, or affixed on the wall outside their window.