This page contains a Flash digital edition of a book.
M2M Communications INDUSTRIAL COMPUTERS Flexible high performance

M2M functionalities are becoming increasingly more important competitive factors for appliances, machines and system installations. Due to growing demands for productivity, flexibility and safety, customised configurable x86 systems, which are already available as application-ready platforms, are being increasingly recommended, says Claus Giebert

bi-directionally and with uninterrupted connection times. However, several changes were needed to achieve this: firstly the complete performance of the network had to be upgraded. Originally GSM still only delivered a data transfer rate of just 9600 bit/s at V.110, whereas today we have UMTS frequency bands of up to 7.2Mbit/s on HSDPA. With LTE, download capacities of up to 100 MB per second are even possible. In addition to this, tariffs have had to be made available via which these bandwidths can also be used 24 hours a day in order to be able to provide a permanent online connection. Accordingly, today there is hardly any


limit in the productivity, range and ontime for M2M applications. Nowadays, access can be created without major expenditure to any appliance, any machine and any system installation at any time whenever this is desired. With the increasing performance capability of the networks, new fields of application are being added one after the other. For instance, remote access has become capable of being implemented into complex systems such as, for example, fire alarm installations in buildings, unmanned sewage treatment plants or dams. These days, even multi-media applications such as the streaming of videos from surveillance cameras are possible. The bandwidth is increasing in line with the

connection times. Solutions have now become affordable for more or less every application from what was at one time an exceptional application with comparably high costs and minimal ontime. By connecting-up radio building elements the network connection can become

(Above) Kontron’s compact and fanless M2M Development Kit integrates, in addition to an energy-efficient Intel Atom processor, the full bandwidth on M2M communication interfaces. (Right) The new M2M system KM2M806XT is designed for the extended temperature range of from -40 to +85 °C and thus extends the fields of application of Kontron’s M2M solutions in the outside and in-vehicle sector. (Top right) The modular construction of Kontron’s M2M systems enables only those functions and interfaces that are really needed to be implemented in a finished system.


n earlier years, M2M or telematics was a matter of quite small data volumes, which were simply sent in one direction. These days by using M2M, distinctly complex applications can also be implemented both

even more rapidly a standard feature of large numbers of electronic appliances, without the end-user even having to pay separately for this connectivity in the future. However, not every electronic device will immediately receive direct access to the unprotected network. In many cases, the process will be in complex environments with access gateways as the nodal point. Thus there are decentralised automation cells, which are protected by a firewall against unauthorised access and authorised access via VPN tunnelling. But when using such M2M gateways, not

only are functions of standard routers required, but often also further functions which can be very OEM-specific – for example, the operation of a company’s in- house antivirus software, the use of the gateways also as a local server, the data aggregation and the web server functionality for the remote access to the underlying applications. Not to be forgotten, too, are the user administration and the logging and reporting of M2M processes. If one wants to individually combine such solutions, the question then arises as to which is the best platform on which to implement this. For example switching and routing processors are available on the market and as they start to be used in carrier grade telecommunications, these provide

high throughput rates

data for

backbones and have an ecosystem, which is precisely tailored to these particular applications. These can then, in fact, also very rapidly implement deep packet inspections; however, further functions which do not precisely match this scenario are quite expensive to install. Furthermore,

there are M2M

implementations, which have been installed with comparatively poorly performing microcontrollers, which are limited in terms of their flexibility and are lacking the requisite performance for most OEM applications in the industrial environment. On the other hand, low-power processors from the x86 family such as the Intel Atom processors provide a good platform with greater flexibility and an extremely comprehensive ecosystem. Everything that one needs for the construction

of M2M gateways on the basis of this technology is readily available in standard form on the market. Thus OEMs can start immediately with the development of the OEM gateway for M2M communications, provided that they have matched and integrated the individual components with each other. Leading industrial computing companies help OEMs

to minimise expenditure by offering pre-integrated machine-to-machine solutions. Kontron for example offers the (M2M) Developer Kit and the M2M system optimised for the extended temperature range of from –40 up to +85°C. With an Intel Atom processor, these systems offer flexible communications possibilities via mobile phone networks, LAN, WLAN (802.11a/b/g/n) and WPAN (802.15.4), and can also be flexibly adapted for connection to local peripherals. This flexibility is possible thanks to the modular construction of the inner workings. For example, a direct camera connection for video

monitoring can be implemented by the USB and Ethernet interfaces on the carrier board. In addition, the integrated x86 processor exercises its full potential in these scenarios as it can also take over the

pre-processing and

compression of image and video data to keep the volume costs for the mobile telephony data transmission as low as possible. Alongside this, industrial Ethernet protocols for Profinet or Fieldbus can be very flexibly produced in customer-specific projects for example by FPGA implementations.

In addition, all of the license management for the OEM-specified pre-integrated software, such as

OS and anti-virus solutions as well as Linux–based ISDN, DSL and Ethernet routers is taken over. When customers get all of this from a single source, they will be relieved of all of the administrative expenditure and can concentrate on the application development work.

Claus Giebert is product manager at Kontron


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40  |  Page 41  |  Page 42  |  Page 43  |  Page 44  |  Page 45  |  Page 46  |  Page 47  |  Page 48  |  Page 49  |  Page 50  |  Page 51  |  Page 52