There is this useful simple link. Just type in your callsign and submit:http://dstar.info/query.html
You should only register yourself once, preferably with your local D-STAR repeater keeper. If you are unsure if you are registered, you can follow this useful link:https://wb1gof.dstargateway.org/cgi-bin/dstar-regcheck If you still are not registered, we can register you by filling out just four fields on our. D-STAR registration page
If you are trying to find details of your local D-STAR repeater, the RSGB website may be best, by clicking onhttp://www.ukrepeater.net/repeaterlist4.htm To find your locator, visit http://www.whatsmylocator.co.uk/index.php/post and add your postcode and then press Calculate. The list of repeaters will then show distance and bearing to each one, highlighting the best choices in green.
You should never be charged for registration. If you have information about anyone who has charged please forward as many details as possible and we will investigate.You can contact us via email at email@example.com
Regrettably it is not possible for anyone to carry out D-Star registrations without access to the process integrated into the G2 software that is installed to control the Icom D-Star repeater gateway.The registration process is driven by the Icom G2 gateway software. It lives on a Linux operating system and is part of a complex algorithm which is able to keep hundreds of gateways informed about new registrations, deleted registrations, user IP address ranges, device addresses and the last-known whereabouts of all users. This is not a trivial piece of software and has been carefully honed to do all that work within a small bandwidth while allowing the gateways to carry significant voice and user data traffic. We understand that, the people in charge of the "Trust Server", the central part of the network outside of Japan, are not at all keen to allow contributors using third-party software. It has been shown in the past that it is very easy to break the system and extremely hard to rebuild it. This escalates with more gateways. We in the UK, and possibly others, also chose not the allow the users themselves to register at our G2 gateways because it is also possible to make simple, un-obvious errors at this level and break the system for many, perhaps thousands of users. Registration sounds like a simple process since we all do it every day on countless websites; it is not so simple in D-Star terms.
D-STAR stands for Digital Smart Technologies for Amateur Radio.
Low-speed DV D-STAR* voice and data works just fine at 144 and 430-440 MHz. 1.2 GHz supports the bandwidth needs of high-speed DD data. Choose the technology that satisfies your needs.
Even D-STAR*'s lowest speed is competitive with the highest-performance packet systems available today. D-STAR*'s simultaneous digital voice and data at 4800 bps is beyond the capability of any packet technology. High-speed D-STAR* systems are ten times faster than the highest packet speeds.
VOIP systems like IRLP and Echolink® are only capable of routing voice signals. They don't support data exchange at any speed. Calls targeted to a specific user are not possible by any amateur technology except for D-STAR*.
The ability of D-STAR* repeaters to route data and digitized voice worldwide sets it far apart from a simple party line. Sophisticated D-STAR* controllers and gateways implement modern telecommunications functions in an amateur package.
While Icom is the first manufacturer to support D-STAR*, any manufacturer or amateur can use the JARL standards to create equipment - transceivers, repeaters, and gateways - compatible with the D-STAR* system. As the D-STAR* system grows, look for other manufacturers to join the fun.
4.8kbps digital voice (DV) mode and 128kbps data** (DD) mode communications are available. When using DD mode with a PC and the D-STAR* radio, high speed data communication is possible. ** DD mode is available with ID-1 only.
Yes, you can. In DV mode operation, you can simultaneously send up to 950bps of data, such as call sign, short data message or GPS position with a voice transmission.
Yes, you can use a D-STAR* repeater as a local repeater. You can also communicate with other D-STAR* radios directly.
Yes, you can**. The Internet gateway allows you to relay your call to a remote D-STAR* repeater over the Internet. The D-STAR* repeater call sign and IP address must be registered to the gateway server. ** Some restrictions may apply depending on specific countries’ regulations.
Yes, you can. The call sign squelch function opens the squelch only when your call sign is received.
When you communicate with other D-STAR* stations using a D-STAR* repeater, it is necessary to set the repeater's call sign in RPT1/RPT2 as well as the desired station call sign and your own call sign. For example, when you make a call in the same zone (without using the Internet gateway), set the uplink repeater call sign in RPT1 and the downlink repeater call sign in RPT2. Set "CQCQCQ" for the desired station call sign, when you make a CQ call. When you make a call in another zone using the Internet gateway, set the uplink repeater call sign in RPT1 and the gateway call sign in RPT2. The gateway repeater has "G" setting for the 8th-digit. Set "/" plus downlink repeater call sign at the desired station call sign, when you make a CQ call.
Range always varies due to terrain and antenna height, but 20-40 miles* from the repeater is normal. Due to digital technology, benefits of up to 20% have been experienced over comparable analogue systems. *20-40 miles is a best case measurement, distances will vary based on frequency used and other terrain obstacles. 23cm can easily be only 2-3 miles based on topography.
"In computing, a protocol is a convention or standard that controls or enables the connection, communication, and data transfer between two computing endpoints." Essentially, protocols are the "rules of engagement" between two devices that allow them to connect to each other and exchange data. Protocols don’t guarantee that the data exchanged is correct or has meaning, they just describe how the data gets from one point to another. There are two D-STAR* protocols; one for the air link that controls over-the-air transmissions and one that controls how information is exchanged between gateways. If you can create a radio or a program that plays by those rules, you can connect to the D-STAR* world. Because D-STAR* is an open protocol, all of the necessary information to play by those rules is publicly available.