How to Purchase
✅ Instant Delivery (No Physical Delivery Required)
✅ Before you buy, make sure you read the Terms and Conditions
✅ If you agree to buy, you have agreed to the terms and conditions of no refunds if the reason is as described Terms and Conditions
✅ License for one PC, and cannot be transferred to another PC
✅The license file will work on the PC where is activated
✅ Active Period: Lifetime (can reinstall), Warranty 1 Years
✅ Support: Windows 10, 11
✅ Update Application: No
✅ Install Instructions: Available (video/text)
✅ It should be noted, buying = understanding product use
Note:
Files & Prices may increase or decrease at any time
Description
MLinkPlanner 2.0 is a powerful and user-friendly tool for planning point-to-point (PtP), point-to-multipoint (PtMP), and LTE / 5G fixed wireless access (FWA) networks.
It was created by engineers with many years of experience in designing microwave links, ranging from single-hop access links to high-power long-haul trunk lines.
Special attention was given to creating a convenient user interface, incorporating adaptable and easy-to-use link path profiles in the design process, and automating all key calculations.
MLinkPlanner 2.0 is a powerful and user-friendly tool for planning point-to-point (PtP), point-to-multipoint (PtMP), and LTE / 5G fixed wireless access (FWA) networks.
It was created by engineers with many years of experience in designing microwave links, ranging from single-hop access links to high-power long-haul trunk lines.
Special attention was given to creating a convenient user interface, incorporating adaptable and easy-to-use link path profiles in the design process, and automating all key calculations.
![MlinkPlanner PtMP Link Short Report.png](https://static.wixstatic.com/media/478119_8049feaf3f3b4eb4a61ea14928343dc3~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MlinkPlanner%20PtMP%20Link%20short%20Report.png)
![MLinkPlanner Propagation Models.png](https://static.wixstatic.com/media/478119_3b1ea867aed74f3fb9425e5e9f0f5e77~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Propagation%20Models.png)
![MLinkPlanner Diffraction Study](https://static.wixstatic.com/media/478119_88826f22255248fd9f36800e5763d920~mv2.png/v1/fill/w_315,h_224,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Diffraction%20over%20multiple%20c.png)
![MLinkPlanner Reflection Analysis.png](https://static.wixstatic.com/media/478119_73a07b1fc64f4e12802da9af9eab6ee3~mv2.png/v1/fill/w_315,h_224,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Reflection%20Analysis.png)
Accurate PtP and PtMP Link Performance Analysis
– Multipath fading prediction (Rec. ITU-R P.530-17 method; Vigants-Barnett method)
– Rain attenuation (Rec. ITU-R P.530-17 method; Crane method)
– Diversity improvement (frequency, space, and quad diversity)
– Co-channel operation
– Error performance and availability (Rec. ITU-R F.1668, Rec. ITU-R F.1703)
Full-Featured Microwave Path Profile Analysis
– Antenna height optimization for different clearance criteria
– Reflection analysis
– Diffraction loss analysis (Rec. ITU-R P.526-15 Complete Bullington method; Rec. ITU-R P.526-15 Diffraction over multiple cylinders method; Deygout principle method with correction ITU-R-P.526-11; Epstein-Peterson method)
– Accounting for attenuation in vegetation (Rec. ITU-R P.833-9)
MLinkPlanner 2.0 is a powerful and user-friendly tool for planning point-to-point (PtP), point-to-multipoint (PtMP), and LTE / 5G fixed wireless access (FWA) networks.
It was created by engineers with many years of experience in designing microwave links, ranging from single-hop access links to high-power long-haul trunk lines.
Special attention was given to creating a convenient user interface, incorporating adaptable and easy-to-use link path profiles in the design process, and automating all key calculations.
![MlinkPlanner PtMP Link Short Report.png](https://static.wixstatic.com/media/478119_8049feaf3f3b4eb4a61ea14928343dc3~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MlinkPlanner%20PtMP%20Link%20short%20Report.png)
![MLinkPlanner Propagation Models.png](https://static.wixstatic.com/media/478119_3b1ea867aed74f3fb9425e5e9f0f5e77~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Propagation%20Models.png)
![MLinkPlanner Diffraction Study](https://static.wixstatic.com/media/478119_88826f22255248fd9f36800e5763d920~mv2.png/v1/fill/w_315,h_224,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Diffraction%20over%20multiple%20c.png)
![MLinkPlanner Reflection Analysis.png](https://static.wixstatic.com/media/478119_73a07b1fc64f4e12802da9af9eab6ee3~mv2.png/v1/fill/w_315,h_224,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Reflection%20Analysis.png)
Accurate PtP and PtMP Link Performance Analysis
– Multipath fading prediction (Rec. ITU-R P.530-17 method; Vigants-Barnett method)
– Rain attenuation (Rec. ITU-R P.530-17 method; Crane method)
– Diversity improvement (frequency, space, and quad diversity)
– Co-channel operation
– Error performance and availability (Rec. ITU-R F.1668, Rec. ITU-R F.1703)
Full-Featured Microwave Path Profile Analysis
– Antenna height optimization for different clearance criteria
– Reflection analysis
– Diffraction loss analysis (Rec. ITU-R P.526-15 Complete Bullington method; Rec. ITU-R P.526-15 Diffraction over multiple cylinders method; Deygout principle method with correction ITU-R-P.526-11; Epstein-Peterson method)
– Accounting for attenuation in vegetation (Rec. ITU-R P.833-9)
![MLinkPlanner Best Server Study.png](https://static.wixstatic.com/media/478119_4eddc831e7454ecc9f8c4b3e18c719cd~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Best%20Server%20Study.png)
![MLinkPlanner Received Power at Subscriber Stations Study](https://static.wixstatic.com/media/478119_2b7de99b6c1a435b88d856e9dae80803~mv2.png/v1/fill/w_315,h_222,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/MLinkPlanner%20Received%20Power%20at%20Subscribe.png)
![Сoverage prediction for outdoor Wi-Fi networks.png](https://static.wixstatic.com/media/478119_e65818b090f041f0a35d284a296972d6~mv2.png/v1/fill/w_315,h_218,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/%D0%A1overage%20prediction%20for%20outdoor%20Wi-Fi%20networks.png)
![Best Server prediction for outdoor Wi-Fi networks.png](https://static.wixstatic.com/media/478119_fc33b59108114b9aba165db0324adc2a~mv2.png/v1/fill/w_315,h_218,al_c,q_85,usm_0.66_1.00_0.01,enc_auto/Best%20Server%20prediction%20for%20outdoor%20Wi-Fi%20networks.png)
Coverage Prediction for Point-to-Multipoint Networks
Different coverage study for PtMP systems:
– Received Power Studies at subscriber stations (CPE)
– Best Server
– Carrier-to-interference+noise ratio C/(I+N) at subscriber stations (CPE)
– Comparison of the two coverage
– Automatic link of subscriber stations (CPE) to BS sectors based on the best server prediction
Coverage prediction for outdoor Wi-Fi networks
Plan an outdoor Wi-Fi network on a city scale, taking into account the characteristics of the propagation environment along streets and building parameters
The user has access to a large set of equipment specification files supplied with the software.
Built-in editor for preparing specification files from datasheets.
Support for any equipment configuration (adaptive modulation; space and frequency diversity techniques; co-channel).
Various Reports
– Short, full and various summary link reports
– Save the result of the coverage calculation as an interactive web page, as a raster image, or as a KMZ file.
– Report with integrated graphics – map and path profile
The reports can be printed or saved in the formats PDF, Microsoft Word, or Excel.
Advanced GIS Features
Fully automatic generation of path profile based on:
– Default (automatically loaded) DEM or Custom DEM.
– Tree cover 1 arc sec (about 30 m) resolution data with tree canopy height information
– 3D buildings data from OpenStreetMap project
All of these types of geodata are automatically downloaded to the required area as needed; there is no need to worry about preloading the geodata.
Great Usability
– Flexibly adjust the layers on the base map and show custom vector layers
– Management of network units both through the main menu and use the context menu on the base map
– Сonvenient and fast path profile generation and editing
– Use metric or English measurement systems
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