How to Install How to Add users How to use: ############################################################################ Weather Beta:. file New & Improved speed. Save to $SCRIPT directory then tar -xzhf ZIPCODE-IRLP.tgz. Follow the directions in the README file, or run the install script. Features: Current Conditions & Forecast. Works on most US Zip codes.
############################################################################ 2 IRLP nodes with 1 ServerMinimum requirements. 2-4GB RAM more is much better allocate 1GB to each VM.
VMware Workstation (licensed) vmware player (free) might work. 2 NIC cards or more (or router that can route multiple public IP’s). 2 Public IP’s ‘comcast and maybe other companies offer these cheap’ (VPN should work as well, maybe). 2 Parallel ports (amazon etc has dual parallel port cards). OS to run as the Host CentOS 5.x or similar might work on other OS’s not sure!. 2 sound cards.
Bajar drivers gratis. Motorola driver installer exe Gratis descargar software en UpdateStar - driver software for motorola phones. Descargar Drivers Motorola xt1032 Installer Smrtphone Gratis Para Windows 10,Windows 8, Windows 7 Y Mac. Motorola xt1032 se. Descargar drivers USB / ADB para Motorola Moto. Android apps, descargar aplicaciones gratis. Hacer doble clic en el archivo.EXE. Sep 02, 2017 Motorola Driver Installer 2.9. Review Comments Questions & Answers Update program info. No specific info about version 2.9. Descarga directa gratuita sin mucho esperar por rapidshare el instalador de driver de motorola, el cual hace que tu PC reconozca equipos celulares motorola y poder.
Lots of patience ?. RAID is a good idea too. You can access the IRLP nodes via SSH or vnc & Tunnel through SSH for a more secure connection. Permissions need to be set on the Host for /dev/parport. and module lp needs to be unloaded at boot. The vm’s can start on login/boot 2 IRLP Nodes running on one machine!
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K6IB - IRLPvCON Installation K6IB IRLPvCON 4.00 Download & Installation Instructions Your IRLP Computer Must Meet The Following Requirements Prior To Installation Of The IRLPvCON Admin Software Package:. Linux O/S Must Be Red Hat Style: Either Red Hat, Fedora Core, or Centos.
A Working IRLP Node Must Be Installed. The Apache HTTPD Webserver Must Be Installed. The Perl Interpreter Package Must Be Installed Before Installing This, Or Any New IRLP Software, Please Make Sure You Have A Full Backup Of Your Node - JUST IN CASE! - Installing Apache HTTPD and Perl - Skip If Apache and Perl Are Already Installed If your system is running Fedora Core or Centos, you probably have YUM installed and can use it to install Apache HTTPD and Perl. To install these packages using YUM, type the following commands as user root and follow directions.
Yum install httpd yum install perl Note: The loading and installation of these programs can require a bit of time. If your system does not have YUM installed (Redhat 7.3 or 9), you will need to get and install the Apache and Perl programs yourself. Information about these programs is available at these websites. Www.apache.org www.perl.com - Downloading & Installing The IRLPvCON Package - Once Apache and Perl are installed on your IRLP Node computer, you are ready to proceed with the download and installation. Note: The installation will perform several modifications to the Apache server and IRLP scripts which the installation program will explain. You will have the option to cancel the installation if these operations are not desired. Note: That This Installation Will Overwrite Any Existing IRLPvCON Installation Including Any IRLPvCon Custom Pages Or Modifications you may have made.
Note: By downloading this package you are accepting the terms of the agreement at the end of this document. To Download and Install the latest version of IRLPvCon, Login as user root on your IRLP computer and then enter the following three commands: wget -nd -nc k6ib.com/downloads/k6ib-load-a chmod +x k6ib-load-a./k6ib-load-a irlpvcon - Using IRLPvCON - To access IRLPvCON point your browser to your-ip-address/irlpvcon!! Be Aware: If you have installed the IRLP remote admin program, Apache has been set to listen on port 15426.
If that is the case All Browser Calls to the Apache server Must be made with that port number. Example: After installation the IRLPvCON User's Manual can be viewed by pointing your browser to the following: your-ip-address/irlpvcon/manual.pdf I hope you will find IRLPvCON a usefull tool on your IRLP node. If you encounter problems or have questions or comments, let me know. Please include the word 'irlpvcon' in the subject line of any E-Mails. Brent - K6IB IRLPvCON - License Agreement By Downloading, Installing, Copying, or Otherwise Using the IRLPvCON Software Package you agree to be bound by the following terms of agreement.
IRLPvCON is a copyrighted package that is provided on a royalty free license basis to Radio Amateurs for use on their Personal or Club IRLP Nodes. Modification is permitted as long as the Copyright Information Remains Intact. Any Copying, Distribution, Modification For Distribution or Any Commercial Use Requires Written Permission.
While a great deal of effort has gone into testing and verifying the package, the IRLPvCON package is provided 'AS IS,' without warranty of any kind. There is no guarantee that it will work on all IRLP nodes.
The Person Downloading And Or Using The Package assumes any and all consequences arising out of the installation and use or inability to use this software package. Copyright © B.W.Sylvester - 2009.
Irlp Software Windows
The Internet Radio Linking Project Another Canadian Invention is Sweeping the World by Paul Cassel VE3SY Thanks to an innovative Canadian, we now have a new and powerful recruitment tool for the younger generation interested in technologies like the Internet, Linux and Ham Radio. By enabling our standard FM repeaters and simplex channels with this new IRLP technology, we can provide instant on-demand linking with one or more repeaters world-wide. And if you're concerned about cost, this entire project is definitely within a 'Ham Approved' -cheap- budget of under US$125 including hardware and software. Links Mentioned in this Article Official IRLP web site Monitor IRLP IRLP user guidelines Current Status of Nodes Contacts IRLP designer Author IRLP is the brainchild of Dave Cameron, VE7LTD of Vancouver BC.
IRLP is the abbreviation used for the Internet Radio Linking Project which Dave developed over the past several years. Back in 1998 Dave became frustrated with the unreliable operation of the Windows based Voice over IP software. All Windows based amateur linking software used VOX and were not secure from non-amateur access. The IRLP network uses a digital switching concept and produces an instant and secure link between licensed repeaters around the world. Eight months after Dave started his design work in 1998, the IRLP network was born and is now on Version 2 of his hardware and software.
As of this posting, IRLP is serving over 1,000 repeaters (nodes) and growing in leaps and bounds. When I ordered our interface hardware here in Kitchener, Ontario, CANADA last February (2001) there were only 63 active nodes. How It Works Dave's custom IRLP software - takes the audio from the receiver which is then fed into the sound card - where it is converted into ADPCM digital data. The Linux PC then converts this digital information into digital packets each assigned with IP addresses for the destination node.
These packets now flow through the internet to the destination Linux PC where the packets are decoded then sent to the sound card and out to the transmitter microphone of the link radio which then transmits the audio out over the local repeater. The transmitter is keyed as soon as these TCP/IP (Internet Protocol) packets start to arrive.
As soon as the data stops the link radio automatically un-keys and process reverses. To assure security of the system, PGP keys are assigned to each node. When a connect request is made the connecting node exchange key challenges which must be correct or the connection is refused. Click to view full image Security From Hackers and Non-Amateur PC access Unlike some systems that allow users access from a PC with minimal if any security, IRLP uses a 100% authentication system to assure the connecting nodes are authenticated and authorized to transmit on the amateur bands.
Here are some points on the IRLP connect request authentication. IRLP uses public/private key authentication (512 bit PGP keys). The calling node has to authenticate against the node called. Once this is done, the called node has to prove to the calling node that he is who he claims to be. So the authentication is bi-directional. Ensures machines can't masquerade as another.
The PGP key is created ONLY by the IRLP Installer and uploaded to the master IRLP server. This method of authentications assures licensing agencies that all audio being repeated on a node in another country has originated from a radio and not a PC. Even though the IRLP uses the internet it does MAXIMIZE the RF content.
The philosophy behind IRLP is to have a radio as an entry and exit point in the system. Under the Hood The underlying audio processing technology in IRLP is a modified version of the UNIX freeware application called 'Speak Freely'. Speak Freely produces Voice-Over-IP (VoIP) audio streaming and is very similar to other VoIP software packages such as Microsoft NetMeeting and the VocalTec iPhone with one major difference - It runs under Linux not Windows.
Linux was Dave's operating system of choice for the IRLP system as it allows the best in reliability, programmability, efficiency, and functionality. Since our repeaters don't need anything even close to MP3 audio quality, IRLP is using a low-bitrate VoIP to communicate. Most nodes use an encoding system that requires only 32KB/s of bandwidth, however some nodes with extremely limited bandwidth, use a GSM encoding method which only requires 17KB/s albeit at the cost of some audio quality. A full time internet connection with DSL, Cable modem or ISDN is required. The control of the radio is performed using a small custom logic board which is connected to the computers parallel port. This board samples the received audio for DTMF audio, detects the link receiver COS for positive and instant remote keying, and generates the TX PTT line for the link radio. All of the command I/O between the PC and the IRLP board is handled by a connection to the PC's parallel port.
The whole system is DTMF (touch-tone) controllable. The control codes lie imbedded in a separate program that reads the DTMF tones from the decoder located on the interface controller board and activates various parts of the software. DTMF codes are used to enable/disable linking, open/close links and set identifiers.
Every site has the ability to connect direct to any other site(s), either using direct connections or reflector sites. Hosting an IRLP Node To host an IRLP node you require:. a full time DSL, Cable modem or ISDN connection. a dedicated Linux computer - a 486 DX100 or better is required,. the IRLP custom software/hardware and. a link radio or direct connection to the repeater controller. Each node on the IRLP network is assigned a four digit ID code and multiple redundant servers spread around the world manage the BIND process (DNS) IP address routing required to complete connections.
IRLP Reflectors and Super Reflectors A reflector is a Linux server that allows unlimited multiple node (repeaters) to be linked together at the same time. As of posting time there were 11 reflectors located in Toronto, Saskatoon, Yellowknife (Canadian Arctic), Sydney Australia, Lancaster UK, Las Vegas NV, Raleigh NC, Fredericton, Pennsylvania, New Brunswick and Vancouver Canada. The most commonly used world-wide reflector is 9200 in Indianapolis Indiana. Most reflectors are hosted by public service minded companies who offer lots of bandwidth to support the requirements of a reflector.
The new super reflectors, launched in October of 2002 provide 10 channels each boosting the number of reflectors to 65. The super reflectors are 9200, 9100, 9210, 9500 and 9250. The bandwidth requirement for a reflector is directly related to the number of simultaneously connected nodes. During one Sunday evening net with 33 nodes connected, the bandwidth being used on the Denver reflector was just over 1mb. This reflector usually has a number of US, Canadian, Australian and Caribbean repeaters connected so any conversation that occurs on one is heard on all connected stations. The super reflectors now each support two channels of GSM to allow dial-up nodes the ability to use multiple reflectors.
For those outside of IRLP coverage repeaters, a streaming audio feed of the main reflector 9200 is available on the internet. Or paste into your favourite MP3 player CANWARN net controllers in Southern Ontario are linking themselves via IRLP using the new Ontario 10 channel Super Reflector hosted by Group Telecom in their Toronto Central Office. This allows the CANWARN controllers to rapidly exchange severe weather information between themselves and the Environment Canada Toronto Severe Weather Desk without interfering with the local CANWARN nets. The Kitchener Ontario IRLP Node I had read about Dave’s work on his web site and based on the low cost of entry US$120 I ordered the IRLP package which arrived within 10 days. The first thing I had to do was sacrifice one of my retired Windows 98 based P133 machine in favour of Linux.
As I had no previous experience with Linux I was a bit hesitant of getting into the Linux operating system, however as you will see this fear was unfounded. Following the very detailed installation instructions posted on the IRLP web site, the installation went very smooth however I did encounter a weird inbound Telnet problem that was quickly resolved thanks to the prompt assistance from Dave VE7LTD. Now that I had the Linux box talking both ways to the internet I had to install the IRLP hardware and a Windows based Plug-n-Play SoundBlaster card. Since many hardware manufacturers do not yet 'support' this most powerful operating system, this is where my fun began. The sound card wanted the same machine resources used by the Ethernet NIC card causing interesting issues such as trashing my BIOS settings and leaving the machine almost brain dead. After a day I was able to locate a DOS utility which I put on a DOS boot disk and booted the now Linux box in DOS and changed the conflicts.
The machine then booted flawlessly under Linux and recognized the sound card immediately. 'AJ', VE3ABZ checked in and keyed in the code to bring up VE3SUE in London. Typical of many repeaters these days, no one was on the air so 'AJ' then brought up the Denver reflector - Now connected to the reflector we were able to talk with amazing clarity to stations in California, Pennsylvania and Yellowknife in the Canadian Arctic. The audio was awesome and anyone listening would swear the Yellowknife station was in Kitchener not the North West Territories in minus 35F degree weather. Using the IRLP Network To connect to another repeater you simply dial a 4 digit on-code. (some node operators require a pre-access code much like an autopatch code) Within a few seconds that node will ID in plain voice with it's callsign and location. If the node is currently connected to another or to a reflector, you will receive a recording telling you which connection the other repeater is currently engaged with.
Before placing a call you can always check the status of any node in real time by going to and look at the node you wish to connect with. This page updates in real-time and refreshes every minute so it is always current. Just as with any linking system, IRLP is subject to some minor audio delays which are mostly radio related. These delays are caused by the amount of time it takes for numerous radios to decode the Tone Squelch information so the first thing to remember is to slow down and be patient. (to dispel internet delay myths, the audio delay over the internet is the same as you experience when using a digital cell phone) When completed with a QSO, announce your call and dial the OFF code at which time a voice ID indicating the link is dropping will play.
Since many repeaters are not heavily used, there are always a number of nodes left connected to the Denver CO Reflector allowing you to place a CQ, or ORZ type call with an excellent chance of speaking with someone somewhere in the world. Refer to the following list of nodes (repeaters) and find one close to your QTH.
If one of the members brings up one of the reflectors you will be able to simply key your microphone and talk but we do advise to contact the node operator and determine if local membership is required. Active nodes around the World New repeaters and new countries continue to join the IRLP family. Current countries that are active around the world include Canada, USA, United Kingdom, Dominica, Trinidad, Australia, Tasmania, New Zealand, South Africa, Sweden, India, Sweden, Belgium, Ecuador, Scotland, Japan and the Netherlands plus the node on Scott Island in Antarctica. Nodes are also under construction in other countries around the world. As for DX stations you can look for McMurdo Station on Ross Island in Antarctica, SK6RAB in Sweden, Johannesburg South Africa, two nodes in The Commonwealth of Dominica (not the Dominican republic) where it's not unusual to hear Bernadine, the Mayor of the capital city Roseau on the air promoting the Island. As well you may hear J79 stations from neighbouring St.
Lucia accessing the Roseau repeater across the Caribbean. As well, Trinidad have 2 nodes on the air. There is lots of activity from the half dozen or so UK nodes and the 30 + active nodes in the 'land down under' which reminds you of the movie 'Back To The Future' as most QSOs with VK land are taking place tomorrow. Summary This exciting new technology will be a tremendous catalyst to bring new young blood into our hobby. Where else can you witness an open world-wide VoIP wireless network using a free and open protocol like IRLP? As we all know there has been a real challenge for us to draw kids into our hobby as they could previously talk on their poor quality iPhone connections over the Internet.
Now with a basic HT they can enjoy far superior audio and be talking with their friends across town and around the world. Since we brought our node on here in Kitchener, Ontario our membership has taken a real boost and we have subsequently added two additional nodes. Many former members see the excitement back in the hobby and many new members are joining to be part of the IRLP system. The VE3RBM repeater has gone from possibly 2 QSOs per week to our busiest repeater and is now dedicated to IRLP use. It is highly recommended that an IRLP node not be added to a high traffic repeater unless the reflector feature is locked out which is easily done. I would like to personally thank the IRLP designer Dave Cameron VE7LTD for his assistance in preparing this article and for his dedication to this wonderful project. Are You Interested?
If this article has piqued your interest and you seek additional information please browse the official IRLP web site at and feel free to contact the IRLP designer Dave, VE7LTD at or the author. The IRLP Designer and Project Leader Dave Cameron VE7LTD 4708 Caufield Drive West VANCOUVER, BC V7W 1G2 e-mail: Author: Paul Cassel VE3SY Box 29 RR2 PETERSBURG, Ontario N0B 2H0 Canada e-mail: Phone: (519) 634-5139 Table of Contents Also Visit Our.
Building a Raspberry Pi IRLP Node NOTE - these nodes are no longer on the air. I leave these pages for reference purposes. I have gone to the better world of Allstar. See my development of The Raspberry Pi is a small single board computer which runs a Debian Linux package called Raspbien compiled for its ARM processor. The board includes two USB ports, HDMI video and sound, Ethernet, GPIO, and an SD card slot for the operating system.
It has all the necessary ingredients to make a small, low power IRLP node. For IRLP the GPIO is interfaced to the IRLP boards 25 pin D connector and a USB sound FOB provides the transmit and receive audio.
The first place to start is the Pi IRLP web page - There you will find links to photos and details about installation. You have many options on how to put a system together from buying a totally pre-configured plug and play system to using parts you already have. The only requirement is the IRLP board which can be purchased at the Pi IRLP webpage or if you already have a board it can be modified very easily for the Pi. The modification requires the installation of one jumper and the removal of a diode. In my case I only purchased the modified IRLP board at the website. The USB FOB can be ordered from Amazon or other vendors for about $9.
The cabling can be fabricated if you have or can get the required connectors. Note that the DB9 cable assembly which carries the radio signals comes with the purchase of the IRLP board.
The Raspberry Pi is available from many sources for about $35. The power supply and cable are about $12. The SD card from $8-$14. I used a SanDisk Ultra class 10 8Gb microSD which came with an adapter. It was about $13. You can buy cheaper SD cards but beware that there are a great deal of counterfeit cards out there that look like the real thing. There are also cheap substitutes.
Spend a little more and buy at a reputable store. Also buy a second one for a backup.
The first thing you will do if you are not buying the pre-configured SD card is download the latest Raspbien software. The downloads are available at - Download the Raspbien 'Wheezy' image. You can do this on a Windows or Linux system.
I use Windows. The downloaded image file will be written bit for bit to the SD card you purchased. The card does not have to be formatted in any way and any data previously on it will be overwritten. I used win32diskimager which is available for download at many sites. You simply insert the SD card in a card reader/writer attached to your computer and write the image to the card. Once written it can be inserted into the Raspberry Pi (with the power off) and it will boot right into the Raspbien graphics display. If this is your first time using the Pi you may want to play with it a little before installing IRLP.
Linux uses a directory and file structure similar to DOS and Windows but the commands and syntax are not the same. I have been using it for over 20 years and it comes naturally to me but for those that are using it for the first time it has a learning curve like anything else. A starter book like 'Linux for Dummies' might be a good place to start. While there is no real requirement to know Linux to operate a node it will make your life easier when you want to change things on your system. To install the IRLP system follow the directions here - This will walk you through all the steps required to install the software and get your node up.
If you are doing the install yourself your new node number will be assigned once it is determined that you are a valid amateur radio operator and that you purchased the IRLP board. This usually only take a few hours but it is a manual operation involving real people so it could take longer. After you get your node on the air you undoubtedly will want to make changes to suit your needs. Any changes are stored on the SD card and failure of the card would require going through the install procedure again.
So once you are confident that the system is working properly make a backup copy of the SD card using your Windows or Linux system to read the card image and write it to another card. Do this every time you make more than a minor change.
It is not necessary to write another card every time you read an image as long as you maintain the images on another system. Making these copies as you go along allows you to go back to any previous version should something go wrong. When using the Raspberry Pi there are a couple of things you should remember. NEVER insert or remove an SD card with the power on and always shutdown Linux before removing the power.
This can be done by logging into the system via SSH and issuing the command 'shutdown -h now' and waiting for all activity to cease before removing power. Once your system is running your will want to put it all in a box. Below are photos of how I mounted my system in a plastic hobby box with aluminum front and back panels. I cut an aluminum baseplate for everything to mount on.
LED's on the front panel give system status and the radio, Ethernet, and power connections are on the back. I hope you have fun with your Raspberry Pi IRLP node. I have with mine and it works very well. I would be glad to answer any questions. Please send them to my email address at QRZ. Photos (Click any photo to see a larger view).