Tag: ADSL Internet

Impact of next-generation broadband on regular broadband service

 

La montée en débit des réseaux ADSL se précise – DegroupNews.com (France – French language)

My comments on this article

From my understanding of this French-language article, there had been some reports that the performance of “regular” ADSL broadband service (including the triple-play services) in areas where FTTH next-generation broadband service had been rolled out.

But there are some main factors that could lead to this.

One is that the “early-adopter” technology enthusiasts who would make most use of the Internet would have shifted to next-generation broadband as soon as the technology is available. This would apparently “free-up” the load on the regular broadband services for most people who may be doubting the need to shift to next-generation broadband.

Another is that the backbones that bring the data to the broadband-service networks, both the next-generation variety and the regular variety would have to be upscaled to cater for increased data traffic caused by the next-generation networks. This would then lead to increased performance for the Internet services.

But the main reason is due to capital improvements on the existing telephone network that have been taking place in order to increase the possible bandwidth available at the customer’s door. This has mainly been through revising the telephony-system architecture and eliminating aging and derelict infrastructure in order to improve the performance of ADSL-based Internet services

As I have observed with the UK and France, once you have serious commercial and government interest in developing a nation’s telecommunications infrastructure, such as through implementing fibre-optic-based next-generation broadband, there is a strong likelihood that the quality of the nation’s Internet service will improve. This can only happen with real competition in the telecommunications sector and a government that is behind real telecommunications improvement.

Rural Broadband Activity in the Haute-Pyrénées and Brittany regions in France

News articles (French-language only)

 Les Hautes-Pyrénées et le Finistère en haut et très haut débit – DegroupNews.com

From the horse’s mouth

Hautes-Pyrénées Conseil-Général

Press release

Brochure (PDF)

Finistère Conseil-Général

Press release

My Notes and Comments

Hautes-Pyrénées

In this mountainous département of France, there are plans to establish a fibre-optic backbone that will lead to an improvement in Internet service across this area.

The improvements will be in the form of improved ADSL service for more of the telephone exchanges, including “dégroupage” (local-loop unbundling) for competitive-service access as well as a fibre-optic uplink. It also includes “sub-loop access” where DSLAMs will be installed closer to customers’ premises for those customers that are far away from the exchanges, like farms or mountain properties. These improvements will allow the customers to have the same level of IPTV access as would be expected around France.

There will also be a WiMAX wireless broadband network with 58 stations that will be set up to cover areas that are not likely to have proper broadband service, with satellite coverage for the most difficult cases. This situation may be necessary for some of those properties that exist on the slopes of the Pyrenees.

The fibre-optic network will not just be for a backbone but will provide “next-generation broadband” for key areas such as public service, health, research and education as well as “communities of interest” for the département.

Finistère (Brittany)

This département. which covers the western-most tip of France, has a goal of achieving the minimum of 2Mbps throughout its area.

This will be achieved with a fibre optic backbone through that département. It will also mean that exchanges that service ADSL “dead-spots” can be lit up for ADSL. There is also the possibility of a 97-station WiMAX wireless-broadband network set up in this area.

Both areas

The “sub-loop access” effort that is being undertaken with the Hautes-Pyrénées project is impressive because it represents an effort to get the full-speed broadband to the customer’s front door. But I would also suggest that these efforts include checking for decaying wiring and other limitations that can impede ADSL performance.

Also, the fibre deployments should cover not just the key economic areas in the départements, but assure FTTH deployments in the cities where the key economic areas are, especially the residential parts of these cities. This can avoid the tendency to “redline” the towns when it comes to further investment in them. In the case of the Hautes-Pyrénées project, if a town is identified as being a ski resort, it should be looked at in the context of full fibre deployment so that the small businesses in that area which service the snowfield traffic can gain as much benefit as the big businesses in the cities.

Initiatives in France to provide access to broadband Internet to the poor

Article

L’ADSL social, bientôt une réalité ? – DegroupNews.com (France – French language)

My comments and summary on this topic

The French government have taken a few positive steps in subsidising broadband Internet access to poorer communities by encouraging the provision of “tarifs sociaux” or “social tariffs”.

Through France Télécom, they are running a broadband plan of €6.00 per month for 43,000 of the most disadvantaged households rather than the traditional basic plan of €16.00 per month. The government are also looking at subsidising ADSL-based “triple-play” plans to the tune of €5-10 per month for poorer households based on a “social allocation” system. On the other hand, they will work with the industry to establish an industry-established “social fund” which can help with access-enablement programs.

They are describing it as a plan to end the social digital divide. But, in my opinion, there is still the issue of providing equipment of a reasonable standard to enable these programs. If the plan includes the price of any customer-premises equipment, the plan should include a router capable of 4 Ethernet ports and 802.11g WiFi access. Other issues that may need to worked on include whether the person has to supply their own computer or whether they could have access to modest equipment such as a netbook, nettop or low-end desktop or notebook for a low monthly fee. On the other hand, these people may end up with secondhand computer equipment that is supplied “as-is”.

As well, there would need to be some form of community assistance for people who are computer-illiterate. This includes help with the common computer skills such as sending and receiving emails, Web browsing, word processing and file management.

At least France has outlined some steps towards providing affordable Internet access to the poorer communities within the cities.

Buyer’s Guide – Entry-level wireless routers

Netgear DG834G ADSL2 wireless router

Netgear DG834G ADSL2 wireless router

Are you thinking of moving away from the single desktop PC or laptop connected to the broadband Internet via a single-port modem using an Ethernet cable? Are you planning to head down the path of the “new computing environment” where you use a laptop computer that you can take around the house yet still remain connected to the Internet? Do network-enabled gadgets like Internet radios or WiFi digital picture frames appeal to you?

If so, you will need to buy and install a wireless router and these can be purchased for a small amount of money, typically under AUD$110 or US$60. This may also appeal to people who may want to “equip” their young-adult child who is leaving the family nest with one of these devices as well as a modest-specification laptop to study and “Facebook” on. In fact these routers can help you with saving money in the long term on your Internet connection especially if you aren’t interested in a “single-pipe triple-play” communications service.

The advice provided here will differ over time as manufacturers “push” features down to the entry-level wireless routers as newer technologies and standards are introduced to the home network.

What does the entry-level wireless router offer

Broadband (Internet) / WAN connection

Most entry-level wireless routers offer a connection for a wireline Internet service on the “Internet” or “broadband” side of the connection. This typically is in the form of an Ethernet connection marked as “Internet” or an integrated ADSL2 modem. They will support the access-authentication-accounting protocols being deployed by most of the Internet service providers including the big names in the marketplace.

The Ethernet-ended “broadband” routers will be primarily useful for people who sign up to Internet service where you have to use customer-premises equipment supplied by the Internet service provider. Such services typically include cable Internet (whether through the cable-TV set-top box or a separate modem), some ADSL Internet services, “next-generation Internet” such as fibre-optic services, or wireless-broadband that isn’t in the form of a USB-connected modem. If you do want to use regular ADSL service with these routers, you would have to purchase an ADSL modem that can work as a “bridge” (in the case of “wires-only” / “BYO modem” service) or configure supplier-provided ADSL equipment to work as such.

Saving money on setting up your Internet connection

Most ISPs, cable companies and telephone companies offer wireless home gateway devices at highly-inflated prices and are often set up so you don’t have much control over the device. In a lot of cases that I have observed, you may end up with equipment that. for example, won’t work properly with Skype or MSN Messenger because it won’t support the automatic port-forwarding functionality provided by UPnP IGD that is common with nearly all of the entry-level routers. As well, I have observed cases where the ISP-supplied wireless home gateway simply provides substandard performance or unreliable service; or simply is “technologically backward”.

If you intend to set up an ADSL-based Internet service, you buy a wireless router with an integrated ADSL2 modem; as well as the correct number of ADSL line or wallplate splitters for each phone socket in your home. Then you subscribe to an ADSL plan with a “wires-only” or “BYO modem” hardware option where you supply the customer-premises equipment i.e. the ADSL modem.

If you are setting up a cable-Internet service or similar service, you just need to purchase a “broadband” router with an Ethernet port for the Internet connection. Then you have the ISP who provides cable Internet provide you a cable modem with a single Ethernet port rather than their heavily-promoted wireless cable routers.  Your broadband bill will only reflect the cost of the single-port cable modem in the equipment tab.

Local network connection

The entry-level wireless router should have 4 Ethernet ports for use in connecting network hardware that uses Ethernet sockets. This also comes in handy with HomePlug powerline connections because you can connect your HomePlug-Ethernet bridge to one of these sockets and use the AC wiring as part of your home network.

Most of these units will have at least 802.11g WPA2 WiFi as their wireless connectivity, with some having 2.4GHz single-band 802.11n WPA2 WiFi providing this function. It may be preferable to go for a unit that supports WPS “quick-setup” connectivity so you can avoid frustration with setting up a secure wireless network. Some of these routers will use an integrated aerial while others will use one external aerial or, in some cases, two external aerials set up in “aerial-diversity” mode. The RF coverage for this network may suit the typical suburban house with timber or plasterboard interior walls based on a timber frame.

Functionality

Most of these routers will offer UPnP IGD functionality which allows programs like games and instant-messaging programs to establish links to the outside network without user intervention.

An increasing number of these routers will be equipped with a USB port that can be used for sharing peripherals over the home network. The applications that might be made available with this port will typically be printer sharing or file-server functionality using standard protocols and some of these routers may offer the ability to share a wireless-broadband modem as an Internet connection. But beware of those routers that use the port for “USB-over-IP” peripheral sharing where you have to run a “USB-over-IP” driver on each computer. Here, you would be limited to one computer being able to use the device at a time.

Best placement

These routers would suit households who are setting up their “new computing environment” with a laptop as their primary computer or are establishing their home network for the first time. This also includes people who may use a desktop computer connected to the unit via Ethernet and want to have a WiFi network segment for devices like electronic picture frames and Internet radios.

They may also suit secondary-home locations like holiday houses or city flats where you may not be doing much high-end Internet use like gaming.

If you do upgrade this router to a better unit, you can keep these units as a secondary wireless access point once you disable DHCP server and UPnP IGD functionality and allocate them an IP address within the same IP range as the router that you upgrade to has for the local network. Then you connect the router to the new network via the LAN ports. This can come in handy in the form of a dedicated WiFi-G (802.11g) network segment for a network that is moving to WiFi-N (802.11n) or simply as an extension access point for a WiFi-G network.

I wouldn’t recommend these routers as the network-Internet “edge” for small-business mission-critical use because of the inability to support high data throughput and mission-critical reliability. Nor would I recommend them for serious gamers who demand proper latency for their Internet fragfests.

Conclusion

Once you establish your first home network with an entry-level wireless router, you will wonder how you existed with the way you used the Internet before that.