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Orbit > FAQ
Here you can find the answer to some of the most frequently asked questions about Orbit Testbed. If you cannot find answers in this list, please ask your questions at email@example.com.
The Orbit team is actively seeking new items to add to this list. If you would like to add an item, or have a suggestion on how to make this list more useful, please send us email at firstname.lastname@example.org.
- 1 ORBIT Profile
- 2 Getting Started
- 3 Using the ORBIT Testbed
- 3.1 Is there a tutorial?
- 3.2 Who do I email to request a time slot on a sandbox?
- 3.3 How do I just request any available sandbox (are they all the same)?
- 3.4 Do I get root access on my radio nodes?
- 3.5 Do my nodes have consoles I can look at?
- 3.6 Can I reboot (power cycle) my nodes?
- 3.7 Are there Linux sources and packages available locally?
- 4 Hardware Setup
- 4.1 How many radio nodes are there?
- 4.2 How many radio interfaces on each node?
- 4.3 Which wireless cards are used on Orbit nodes?
- 4.4 What OS do the nodes run?
- 4.5 Can I run my own Operating System?
- 4.6 Can I load my own software packages on my nodes?
- 4.7 How do I access the nodes?
- 4.8 Is the ORBIT testbed firewalled?
- 5 Recent questions from experimenters
- 5.1 How do you upload your own script onto the sb consoles?
- 5.2 Do I need to compile the code (or prepare it in any way) before uploading it on the console?
- 5.3 How do we plot this data in an excel spreadsheet? Is there are a way other than manually copying it?
- 5.4 Is it possible to set the channel of operation of the 802.11 nodes dynamically or initially?
- 5.5 How do I set the rate to a fixed value?
The ORBIT radio grid emulator is an indoor wireless network testbed. It supports experimental research on a broad range of wireless networking issues and application concepts with various network topologies and network layer protocol options. It also support virtual mobility for mobile network protocol and application research. The ORBIT radio grid emulator currently uses 802.11x based radio cards. Some examples of systems and protocol designs that can be investigated on the ORBIT emulator grid include:
- Large-scale wireless access networks based on 802.11a, b, g radios along with new protocols for discovery, routing, mobility management, security, etc. under various indoor and outdoor usage scenarios and network topologies.
- Mobile ad hoc networks (MANET), typically based on 802.11x radios, along with multi-hop ad hoc routing protocols such as AODV, DSR and new protocols.
- Wireless sensor networks and pervasive computing applications.
- Mobile applications such as location-based services, VoIP over MANET, mobile multicasting, etc.
In the future, the ORBIT emulator grid will support other radio interfaces such as Blootooth and allow research on heterogenerous wireless networks. It can also accommodate new technologies such as UWB as they emerge.
No. Due to indoor setup constrains, the ORBIT emulator grid does not capture all radio channel effects. The radio channels for the ORBIT emulator grid will normally have no significant multipath. For physical layer radio testing, the absence of multipath would be unacceptable; however, for a wireless network testbed, the differences are less significant. A combination of channel impairment and multiuser interference results in the failure of the physical layer to provide a reliable link so that connectivity is lost at the network layer. Using programmable interference and grid mobility, the emulator will create similar variations in network connectivity.
Yes and No. The ORBIT radio grid emulator currently uses standard 802.11a/b/g radio interface cards with Linux drivers (Intel IPW2200 and Atheros MADwifi). The drivers allow changing certain parameters such as channel, TX power, TX rate, etc. but not all. We are actively developing our drivers and are in constant contact with the card manufacturers to help expose whatever functionality the hardware is capable of. Stay tuned.
Yes. We currently support AODV-UU routing protocol implementation version 0.9.1 that runs on kernel 2.6.12. Please refer to [http://svn.orbit-lab.org/projects/orbit/wiki/AODV AODV] for more details.
The ORBIT radio grid emulator support virtual mobility. Virtual mobiles are introduced for discretized grid mobility. Physically located off the radio grid, a virtual mobile has a network driver that delivers packets to a mobility controller. Via high speed wired Ethernet, the mobility controller encapsulates and forwards these packets to a radio grid node i, which simply decapsulates and transmits each packet. In addition, packets received by grid node i will be forwarded via the mobility controller to the virtual mobile. In short, the virtual mobile will appear to be at grid location i by using radio grid node i for transmitting and receiving packets. It will use grid radio node j when it "moves" to grid location j. Grid mobility can support discretized versions of commonly used mobility models such as Brownian motion or the random waypoint model. In addition to virtual grid mobility, we plan on a small number of programmable mobile robots. These mobiles will communicate with the radio grid and allow experimentation with finer grain mobility experiments.
Currently, RSSI, TX_power, noise, throughput, offered-load, and packet retry can be measured and collected. Users can select one or more of these parameters to be collected and stored in the database.
As ORBIT name (Open-Access Research Testbed for Next-Generation Wireless Networks) says, almost all research or educational uses by those that have a need for it are appropriate and encouraged. These include use by universities, industrial research labs, and both US and non-US institutions. With some provisions, use for product development and evaluation by companies is also acceptable. Please email us if you are interested.
ORBIT is still under development. Please email us if you are interested in doing experiments with the ORBIT testbed. In the future there will be a web interface for the project application.
Yes, it is available at http://svn.orbit-lab.org/projects/orbit/wiki/Tutorial.
You dont need to email anyone. Just point your browser to: http://www.orbit-lab.org/ and click on Schedule. You will need your orbit username and password.
The reservation schedule will show you all the sandboxes and their availabilities. Please refer http://svn.orbit-lab.org/projects/orbit/wiki/SandBoxes for more details on the sandboxes
Yes. you can get root access to all of the radio nodes used in your experiments.
Yes. Each of the radio nodes has its own serial console line with which you can interact through the chasis manager (CM). In any case, all console output from each node is saved so that you may look at it later.
Yes. Each of the radio nodes is independently power controlled by the chasis manager. If your node hangs, or is otherwise unresponsive, you can reboot it. From the console machine, wget -0 - http://repository:5012/cmc/ and use the XML interface to modify the state of your node.
Yes. We provide sources and packages for a few versions of Linux. We are also developing software components and libriaries for experiemnt control, experiment data collection, and user application development.
Currently, we support 64 nodes in a 8*8 grid, and 10 1*2 node sandboxes. In the near future, this will be increased to 400 nodes in a 20*20 grid.
There are two mini-PCI 802.11 a/b/g interfaces cards on each node. In addition to that, there will be USB-based Bluetooth and Zygbee interfaces.
We use Atheros AR5212-based 802.11 a/b/g cards as well as Intel Pro-wireless 2915-based 802.11 a/b/g cards.
The default Operating Systems that run on each of the radio nodes is Linux (Debian GNU/Linux 3.0 with Linux kernel 2.6.4). But every experimenter can load any OS they want.
Yes, you can run your own OS (or a customized version of an ORBIT-supported OS) on any of the radio nodes. We provide infrastructure to image the nodes involved in the experiment with the provided OS image.
Yes! If have one or more software packages that are appropriate for loading on the OS you have selected, you can arrange to have them loaded automatically via APT package system when your experiment is configured. You may specify a different list of software packages for each radio node in the experiment. When the node first boots after the experiment is configured, each of the packages will be installed.
- You can log into the node by running the following command from respective console machine
- ssh root@nodex-y
Write the script in your favorite way. Then if you're on a windows box, use any sftp compatible client to upload it to your home dir on gateway (thus your home on console). If you're on a linux box: type 'scp your_new_script.rb email@example.com:folder/you/want/it/to/go/into'
No, Ruby scripts are interpreted by nodehandler. You do not need to compile the script. One way to check for syntax is to use the nodehandler flag -n i.e nodehandler -n <script_name>
This will run the script in debug mode and tell you if there are any syntax errors
5.3 How do we plot this data in an excel spreadsheet? Is there are a way other than manually copying it?
Please read 'Analyzing Measurement Results' section of the tutorial if you have not done it yet. One straightforward way is to use mysqldump to export your DB to comma separated values format, which can be exported into Excel easily. In addition there are a lot of free tools that can do mySQL-to-Excel conversion, such as
MySQL Query Browser http://www.mysql.com/products/tools/query-browser/
MYSQL Front http://www.mysqlfront.de/
MySQL Database 2 Excel KonvertR http://www.churm.com/konvertr/
SQLyog free edition http://www.webyog.com/sqlyog/index_sqlyogfree.php
Both are possible. Please read "ORBIT Specific methods" part of the tutorial to see the properties that you can set for the wireless interfaces on the node:
node.net.w0.rate = '1M'