Advanced features permit users to combine with professional spectrum analysers, model pre-deployment scenarios, generate unique survey reports, verify end-user network requirements,perform outdoor surveys, conduct voice surveys, and conduct detailed end-user capacity planning.
AirMagnet Survey is ranked 2nd in Network Modeling with 4 reviews while Ekahau Site Survey is ranked 1st in Network Modeling with 11 reviews. AirMagnet Survey is rated 8.2, while Ekahau Site Survey is rated 8.2. The top reviewer of AirMagnet Survey writes "It fixes so many problems quickly that we don't regret spending more on high-end tools than most companies". On the other hand, the top reviewer of Ekahau Site Survey writes "Gives me everything I need to conduct a proper wireless survey". AirMagnet Survey is most compared with iBwave Wi-Fi, Aruba Wireless, Cisco Meraki Wireless LAN, AirCheck G3 and Cisco Wireless, whereas Ekahau Site Survey is most compared with iBwave Wi-Fi and Cisco Meraki Wireless LAN. See our AirMagnet Survey vs. Ekahau Site Survey report.
Many of our partners rely on us as a single point of contact for booking a certified Ekahau or AirMagnet Wi-Fi engineer. Finding a qualified WiFi engineer with access to the correct software required can be challenging and that is why Orion 247 has built a network of trusted and reliable Ekahau and AirMagnet site survey specialists around the world.
We add value by acting as a white label solutions partner and an extension to their existing team by assisting with the global reach of their wireless site surveys. Our partners can contact us instead of going out to multiple in-country suppliers for quotes for international WiFi site surveys, thus saving valuable time and money.
AirMagnet Pro wireless site survey tool allows the Wi-Fi engineer to design a new Wi-Fi network or perform a Pre and Post Site Surveys. It can simulate changes to an existing network, compare surveys side-by-side, automatically validate requirements, or generate custom reports.
A wireless site survey is an onsite survey visit by a trained and certified WiFi engineer. During Wireless Surveys for New Networks, the engineer will use software such as Ekahau or AirMagnet to test for RF interference and to identify the best installation placement for wireless access points (APs). This will also involve a floor plan analysis, an inspection of the facility, discussions with the IT management team and the use of site survey tools.The surveys are used to collect vital information about the wireless environment to understand where the placements of APs should be during pre-deployment or to identify areas of weakness within the wireless environment.
Mistakes can be made with the use of survey tools that are able to make a site survey report look good. These mistakes can make an entire floor or building appear to have sufficient coverage when, in reality, client devices in certain areas can have very weak coverage.
Data gathered from a map that is not properly calibrated results in a completely inaccurate survey report. It is recommended to verify the map calibration in survey reports where the heat maps do not look correct.
In most cases, there is a single data point or AP radio provides much larger coverage in the survey map when compared to actual coverage. It is a good practice to view AP heat maps individually and verify the actual size of the coverage.
You cannot recalibrate the map after the survey is performed to repair survey data that was taken when the map calibration was not properly scaled. You must correct the map calibration and perform a new survey.
The primary objective of a post-validation site survey is to provide detailed information that addresses the current RF coverage and determines whether there is sufficient coverage to support the network design requirements.
Post-validation surveys must also include information that addresses interference sources, equipment placement, and rogue devices. The site survey documentation serves as a guide for the verification of the wireless infrastructure.
It is possible to have a survey report that shows good coverage in all areas; however, if you have APs that operate at the highest transmit power, you possibly continue experience uplink issues where the client devices do not support the same transmit power.
To create a WiFi heatmap using NetSpot, all you need to do is enter the Survey Mode and follow the simple instructions. NetSpot will ask you to upload a map of the area you would like to survey, but you can also create one using the built-in mapping tool.
Then just walk from one place to the next to collect wireless site survey data and wait for NetSpot to automatically build a WiFi heatmap for you. The heatmap will tell you exactly where your wireless signal is the strongest and where it could be improved.
Intended for large-scale and local WiFi surveys alike, VisiWave Site Survey provides three effective methods for capturing data. You can either capture data one point at a time, continuously walk through the survey area, or use GPS positioning for outdoor surveys. Several customizable templates can be used to easily create custom WiFi signal strength and coverage reports, and the gathered data can also be viewed in Google Earth.
For example, a WiFi heat map showing the strength of a wireless signal is typically color-coded in green, orange, and red. Green parts represent areas of great signal strength, orange parts represent areas of average signal strength, and red parts represent areas of poor signal strength. Ideally, you want the entire surveyed area to be green, which can be achieved through various signal-optimization techniques and strategies.
Just like electromagnetic waves, a WiFi signal will get stronger and stronger the closer you get to its source (a WiFi router or repeater). Knowing this, you can use a WiFi mapping tool to create a heatmap of your area to see where the signal has the greatest strength.
Just know that the strength of a WiFi signal can also be affected by solid obstacles and other devices that use electromagnetic radiation for transferring information, so finding the exact origin of the signal may not always be possible.
This tool can be used to design and plan a new WiFi network; it identifies the best locations for APs and recommends the orientation of their antennas for optimal coverage of premises. As a site surveying and WiFi planning tool, it is designed to provide WiFi coverage mapping and RF analysis.
VisiWave is a complete WiFi network survey solution that can also be run on any Windows laptop that has a wireless network adapter. It can capture the WiFi data one point at a time, by scanning around an entire survey area or with the help of GPS positioning.
It is a relatively affordable product. But, what is even more appealing is that it can be further enhanced by combining it with other third-party tools. For example, VisiWave Site Survey supports Wi-Spy Spectrum Analyzer, a USB 1.1 device, to continuously monitor 2.4GHz or 5GHz radio spectrums and report on any radio transmissions or interference sources that occur in this range. VisiWave records this information and associates it with a location on a survey map image to create detailed interference graphs on top of the wireless coverage maps.
I'm looking for the very best enterprise wireless survey solution. Price isn't an issue. I just need something that does a good job inside and outdoors. If it's easy to use or cross platform that would be nice. 2b1af7f3a8