Do you know that WiFi Heat is a way to monitor the strength and weakness of WiFi signals in Toronto office buildings! This thing is important, it can intuitively tell us the coverage status of WiFi signals in various areas of the building – providing global procurement services for weak current intelligent products!
Basic knowledge of WiFi Thermal Imaging Graph
1. Principle : It mainly relies on dedicated tools and related technologies to collect and analyze WiFi signal strength, interference situation and other data, and then convert it into a visual heat map.
2. Key indicators : Signal strength is one of the core indicators~ In addition, signal interference situation and channel utilization rate cannot be ignored.
3. Important significance : If you have this thermal imaging image, you can find areas with weak WiFi signal coverage, so that we can perform targeted optimizations so that office workers can use the WiFi network happily!
Data collection work steps
1. Preparation tools : signal acquisition instruments, network testing terminals, etc. are indispensable. Remember to debug these devices before collecting them to make sure they are functioning properly
2. Point planning : Divide different data collection points according to the layout of the office building. For example, in every corner, conference room, office, etc. of each floor, evenly arrange collection points.
3. Data collection process : Take the device to each point, open specific software for data collection, and you can sample multiple times to ensure the accuracy of data.
Tips for drawing thermal imaging
1. Select software : You can try to find professional thermal imaging drawing software, and some can directly connect to the acquisition of equipment data – providing global procurement services for weak current intelligent products!
2. Color setting : Give different signal strengths to correspond to different colors. Generally speaking, red represents strong signal, and blue represents weak signal, which makes people understand at a glance.
3. Error correction : Perform error analysis on the collected data to adjust those unreasonable data to make the final thermal imaging map more accurate.
Apply thermal imaging to optimize the network
1. Determine the optimization area : Take a closer look at the blue and low-heat areas in the thermal imaging map. This is the area where WiFi signal coverage is poor~
2. Solve interference problems : Building materials and other electronic equipment will cause signal interference. Find the interference source, adjust the device position if you can adjust it, or use other unaffected channels instead.
3. Increase signal coverage : In areas where the signal is weak, WiFi access points can be added, so that the signal coverage can be more complete and even.
Let's answer a few common questions below
Q : Can you use the built-in system software to collect data when doing WiFi thermal imaging?
Answer : Although some systems have collection functions, their accuracy and professionalism are not as good as professional tools. It is better to try to use software and equipment dedicated to data collection.
Q : How long does it take to update the thermal image?
Answer : If the layout of the office building has not changed much, it will be updated every six months to a year. But if the layout of the building changes greatly, the thermal imaging images must be re-collected and updated.
To be honest, Toronto Office Building WiFi Heat Mapping, WiFi Heat plays a significant role in optimizing the network of office buildings. If this thermal imaging can be used well, it will definitely bring a silky Internet experience to the office staff! I hope everyone can use thermal imaging to make the WiFi network in the office environment in a great state!
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