Why most 4×4 access points are not worth it

4x4 access When selecting a new Wi-Fi infrastructure, business customers are often faced with a wide range of devices. Customers with an interest in technology will always ask for equipment that meets the latest technical standards. After all, the aim is to invest in the right technology. It seems clear that the current 802.11ac standard has become the benchmark for everything. But what then are Wave 2, 2×2 MIMO, 3×3 MIMO, and 4×4 MIMO, and why is there a new 802.11ad standard. (more…)

Hans-Dieter Wahl: WLAN Business Line Manager

What is LTE Advanced?

lte advancedWhat we commonly call 4G+ is really LTE Advanced, a standard based on the 3GPP Release 10 norm, passed in March 2011.

It is, basically, a number of improvements that enhance the LTE (Long Term Evolution) standard stemming from the 3GPP Release 9 norm.

The main goal of the LTE Advanced standard is to improve LTE and broaden its capacity. That is, to guarantee a higher number of simultaneous users benefit from a better service.

The following is needed to achieve this goal:

  •  Better spectral efficiency, of up to 30bps/HZ.
  •  Variable bandwidth, capable of ranging from 20MHz to 100MHz by adding up to 5 20MHz carriers.
  •  Better use of antennas with 8×8 MIMO technology for downstream operations and 4×4 MIMO for upstream ones.

This means peak upload speeds of 1.5Gbps and download speeds of 3Gbps can be achieved.

Other standard improvements result from an advanced network topology, which supports both macro cells and a mixture of low-power nodes (femtocells, picocells and Relay Nodes). This gives users a far better service thanks to mixed network topologies, capable of combining big and small cells and of providing service to a larger number of simultaneously active users.

The standard’s other main goal is to enhance the service provided to users who are at the edge of a cell. This is achieved by providing simultaneous communication from the cell node the user is connected to and from the node belonging to the neighboring cell.  The main improvement linked to this was added to 3GPP Release 11 and is known as CoMP (Coordinated Multipoint Operation). It allows the user to communicate, in a coordinated fashion, with two base stations and achieve a spectral efficiency of 2.4bps/Hz/cell with a 2X2 MIMO configuration.

Given the content we find in today’s mobile applications, the upstream and downstream speeds may seem somewhat excessive. The goal, however, is not to give maximum speed to a single user, but to increase the speed for all and provide the best possible service to a growing number of users operating in each cell.

LTE advanced has succeeded in introducing mobile communication (for service provision) in many new sectors where it was previously unthinkable, whilst doing so in an effective and efficient manner. The mobility market (trains and automation) is an eloquent example.

In Teldat, we work using LTE Advanced technology and we cover every available band worldwide (both for LTE-FDD and LTE-TDD networks). Moreover, our devices are LTE Cat 6. This guarantees LTE Advanced operation, and allows two carriers to be added in two different bands (for a 40 MHz aggregated bandwidth) to double the LTE Release 9 bandwidth. We also use 2×2 and 4×2 MIMO technology, which improves performance in every environment and is compatible with LTE Release 11.

 

Pablo Alonso: Pablo Alonso is Telecommunications and Development Engineer in the Teldat R&D Department. Within this department is part of the team dedicated to the Industrial & Mobility business line and he is specialized in cellular connections.

Three different solutions for WLAN management

wlan solutionsAlready Albert Einstein learned during his job as an electrician at the Oktoberfest in Munich in 1896 that a straightforward solution is not always the best way to solve a problem. Today, it is just the same thinking of the most suitable WLAN management solution. 

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Hans-Dieter Wahl: WLAN Business Line Manager

The first wireless LAN /WLAN

wlan historyEverybody at least in Germany and probably in some typical German tourist centers knows the famous Song by Paul Kuhn “There is no beer on Hawaii” but not many people know that a network very similar to the wireless LAN available nowadays was already set up in 1969 by the University in Hawaii. The network’s name was “ALOHAnet” and connected different parts of the university on the island Oahu.

Brief history of the WLAN

The idea was taken up no sooner than at the end of the 1980s. The first IEEE working group was founded in 1991 and was set up the technical basics of the new standard. The first devices were working according to pre-802.11 standard but were not compatible to the later IEEE standard. The data rates of 2 Mbit/s were relatively modest. The technology could not be really established in the first years because the first WLAN cards were very expensive. This changed at the end of 1999 as Apple launched an iBook with an incorporated WLAN card. A base station at a reasonable price was also produced by Apple.

By the way, this was also the time when the company Artem successfully placed the first wireless LAN products on the market. In the meantime Artem has merged with Teldat and wireless LAN products are well-established in our product portfolio.

The latest developments and innovations in WLAN networks

In terms of technology a great deal has happened since then. The transmission power has increased from 2 Mbit/s to several Gigabit/s, the data transmission is encrypted and much more besides. Also, from a commercial point of view, WLAN has become more and more important. Whereas in 2008 less than 100,000 WLAN chips were produced and sold, production numbers for WLAN chips have meanwhile increased up to the incredible number of almost 3 trillion.

This enormous increase is certainly because of the numerous mobile devices in the consumer market. However, not only the providers of inexpensive consumer devices have noticed a remarkable growth. Also suppliers of professional WLAN solutions have noticed an annual double-digit percentage growth.

This vast increase in terms of sales numbers will probably decline a bit. Nevertheless, further improvements of this technology and new applications will drive further growth. Especially in this context, we should mention the new 802.11ac standard. The first generation of this new technology is rather unsuitable for business applications because the new standard requires a very high demand of bandwidth which makes complex installations difficult.

The second generation of 802.11ac chipsets will be interesting for business solutions. These 802.11ac chipsets support the new MU-MIMO (multi-user MIMO). MU-MIMO applies in particular to mobile devices with only MIMO 1×1, which means only one antenna. So clients share the available streams or antennas of an access point in such a way that every client uses a different antenna of the access point. Thus, the maximum number of clients that can simultaneously connect to an access point or frequency has tripled or quadrupled. Therefore, it is possible to supply several hundred clients via one access point and multiplies the overall performance of the network, while it simplifies the setup of high performance WLAN networks for major events.

The setup, planning and installation of a WLAN network in major event locations has been one of Teldat’s competences for many years. The conclusion is that it remains exciting and we will definitely join it.

Hans-Dieter Wahl: WLAN Business Line Manager
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