iBwave Design 6 Review: Is It Worth Using a Cracked Software for Indoor Wireless Network Design?
What is iBwave Design 6?
iBwave Design is a software solution that streamlines the design of indoor wireless networks. It supports multiple wireless technologies, such as cellular, Wi-Fi, public safety, IoT, CBRS, and more. It also supports different network architectures, such as passive DAS, active DAS, small cells, access points, fiber backhaul, etc.
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iBwave Design allows you to create accurate and realistic 3D models of buildings, import floor plans and site surveys, select and place components from a database of over 35,000 products, simulate coverage and capacity scenarios, optimize network performance, generate reports and documentation, and collaborate with other stakeholders.
iBwave Design is used by thousands of wireless professionals around the world for designing indoor wireless networks for various industries, such as hospitality, healthcare, education, retail, transportation, public venues, etc.
iBwave Design comes in three versions: Lite, Enterprise, and Private Networks. Each version has different features and capabilities depending on your needs and budget. You can compare the product features here.
Why use iBwave Design 6 for indoor wireless network design?
iBwave Design 6 is the latest version of iBwave Design that was released in June 2021. It offers several new features and enhancements that make it the best software for indoor wireless network design. Here are some of the reasons why you should use iBwave Design 6:
It supports the latest wireless technologies and standards, such as 5G NR (New Radio), Wi-Fi 6E (6 GHz), CBRS (Citizens Broadband Radio Service), etc.
It has a new user interface that is more intuitive and user-friendly. It also has improved performance and stability.
It has a new propagation module that provides more accurate and realistic coverage predictions. It also has a new optimization module that helps you improve the network performance by adjusting the parameters and settings.
It has a new report module that allows you to create and customize professional reports and documentation. You can also export them in various formats, such as PDF, Word, Excel, etc.
It has a new collaboration module that enables you to share and synchronize your projects with other users. You can also use the cloud storage and backup features to keep your data safe and accessible.
iBwave Design 6 is the ultimate software for indoor wireless network design. It helps you save time, money, and resources by simplifying and automating the design process. It also helps you deliver high-quality and reliable wireless networks that meet the expectations and requirements of your customers.
How to install and activate iBwave Design 6?
System requirements
Before you install iBwave Design 6, you need to make sure that your computer meets the minimum and recommended system requirements. Here are the system requirements for iBwave Design 6:
ComponentMinimumRecommended
Operating systemWindows 10 (64-bit)Windows 10 (64-bit)
ProcessorIntel Core i5 or equivalentIntel Core i7 or equivalent
Memory8 GB RAM16 GB RAM or more
Hard disk space10 GB free space20 GB free space or more
Graphics cardNVIDIA GeForce GTX 1050 or equivalentNVIDIA GeForce GTX 1060 or equivalent
Display resolution1366 x 768 pixels1920 x 1080 pixels or higher
Internet connectionBroadband connection (for activation and updates)Broadband connection (for activation and updates)
Licenses server (optional)iBwave License Server 2.0 or higher (for network licenses)iBwave License Server 2.0 or higher (for network licenses)
Installation steps
To install iBwave Design 6, you need to follow these steps:
Download the iBwave Design 6 installer from the official website. You need to register or log in to access the download link.
Run the installer and follow the instructions on the screen. You can choose the installation folder and the components you want to install.
Wait for the installation to complete. You may need to restart your computer after the installation.
Launch iBwave Design 6 from the Start menu or the desktop shortcut.
Activation steps
To activate iBwave Design 6, you need to have a valid license key or a crack file. You can choose one of these methods:
If you have a license key, you can enter it in the activation window that appears when you launch iBwave Design 6 for the first time. You can also access the activation window from the Help menu. You need to have an internet connection to activate your license key online.
If you have a crack file, you can copy it to the installation folder of iBwave Design 6 and replace the original file. You need to run iBwave Design 6 as an administrator to apply the crack file. You do not need an internet connection to use the crack file.
Note: Using a crack file is illegal and risky. It may violate the terms and conditions of iBwave Design 6 and expose your computer to malware, viruses, data theft, etc. We do not recommend using a crack file for activating iBwave Design 6.
How to use iBwave Design 6 for different wireless technologies and architectures?
iBwave Design 6 is a versatile software that can handle different wireless technologies and architectures. You can use it to design and optimize indoor wireless networks for cellular, Wi-Fi, public safety, IoT, CBRS, and more. Here are some tutorials on how to use iBwave Design 6 for different wireless technologies and architectures:
Cellular (5G, 4G, 3G, 2G)Cellular networks are wireless networks that use radio frequencies to provide voice and data services to mobile devices. Cellular networks are divided into generations, such as 2G, 3G, 4G, and 5G, each with different features and capabilities. Cellular networks are composed of base stations, antennas, and mobile devices that communicate with each other.
iBwave Design 6 can help you design and optimize cellular networks for indoor environments. You can use it to create 3D models of buildings, import floor plans and site surveys, select and place cellular components, simulate coverage and capacity scenarios, optimize network performance, generate reports and documentation, and collaborate with other stakeholders.
Here are the steps to use iBwave Design 6 for cellular network design:
Create a new project and select the cellular technology you want to use (e.g. 5G NR, 4G LTE, 3G UMTS, 2G GSM, etc.). You can also select the frequency bands, the network operator, and the country code.
Create a 3D model of the building using the built-in tools or import a floor plan from an image file or a CAD file. You can also import site survey data from iBwave Mobile or other sources.
Select and place the cellular components from the database of over 35,000 products. You can choose from different types of base stations, antennas, cables, connectors, splitters, combiners, amplifiers, etc. You can also create custom components or import them from external sources.
Simulate the coverage and capacity of the cellular network using the propagation module. You can adjust the parameters and settings to match your design goals and requirements. You can also view the results in different formats, such as heat maps, graphs, tables, etc.
Optimize the network performance using the optimization module. You can use the automatic or manual optimization features to improve the network quality indicators, such as RSRP (Reference Signal Received Power), SINR (Signal to Interference plus Noise Ratio), RSRQ (Reference Signal Received Quality), etc.
Generate reports and documentation using the report module. You can create and customize professional reports and documentation that include all the relevant information about your project, such as project summary, design details, simulation results, bill of materials, etc. You can also export them in various formats, such as PDF, Word, Excel, etc.
Collaborate with other stakeholders using the collaboration module. You can share and synchronize your project with other users using the cloud storage and backup features. You can also use the comment and annotation features to communicate and exchange feedback with other users.
Wi-Fi
Wi-Fi is a wireless technology that uses radio frequencies to provide internet access and data transfer to devices, such as laptops, smartphones, tablets, etc. Wi-Fi networks are composed of access points, routers, switches, and devices that communicate with each other.
iBwave Design 6 can help you design and optimize Wi-Fi networks for indoor environments. You can use it to create 3D models of buildings, import floor plans and site surveys, select and place Wi-Fi components, simulate coverage and capacity scenarios, optimize network performance, generate reports and documentation, and collaborate with other stakeholders.
Here are the steps to use iBwave Design 6 for Wi-Fi network design:
Create a new project and select the Wi-Fi technology you want to use (e.g. Wi-Fi 6E, Wi-Fi 6, Wi-Fi 5, etc.). You can also select the frequency bands, the network operator, and the country code.
Create a 3D model of the building using the built-in tools or import a floor plan from an image file or a CAD file. You can also import site survey data from iBwave Mobile or other sources.
Select and place the Wi-Fi components from the database of over 35,000 products. You can choose from different types of access points, routers, switches, cables, connectors, antennas, etc. You can also create custom components or import them from external sources.
Simulate the coverage and capacity of the Wi-Fi network using the propagation module. You can adjust the parameters and settings to match your design goals and requirements. You can also view the results in different formats, such as heat maps, graphs, tables, etc.
Optimize the network performance using the optimization module. You can use the automatic or manual optimization features to improve the network quality indicators, such as RSSI (Received Signal Strength Indicator), SNR (Signal to Noise Ratio), throughput, etc.
Generate reports and documentation using the report module. You can create and customize professional reports and documentation that include all the relevant information about your project, such as project summary, design details, simulation results, bill of materials, etc. You can also export them in various formats, such as PDF, Word, Excel, etc.
Collaborate with other stakeholders using the collaboration module. You can share and synchronize your project with other users using the cloud storage and backup features. You can also use the comment and annotation features to communicate and exchange feedback with other users.
Public Safety
Public safety networks are wireless networks that provide communication and data services to emergency responders, such as police, fire, ambulance, etc. Public safety networks are composed of base stations, antennas, repeaters, radios, and devices that communicate with each other.
iBwave Design 6 can help you design and optimize public safety networks for indoor environments. You can use it to create 3D models of buildings, import floor plans and site surveys, select and place public safety components, simulate coverage and capacity scenarios, optimize network performance, generate reports and documentation, and collaborate with other stakeholders.
Here are the steps to use iBwave Design 6 for public safety network design:
Create a new project and select the public safety technology you want to use (e.g. P25, TETRA, DMR, LTE, etc.). You can also select the frequency bands, the network operator, and the country code.
Create a 3D model of the building using the built-in tools or import a floor plan from an image file or a CAD file. You can also import site survey data from iBwave Mobile or other sources.
Select and place the public safety components from the database of over 35,000 products. You can choose from different types of base stations, antennas, repeaters, radios, cables, connectors, splitters, combiners, amplifiers, etc. You can also create custom components or import them from external sources.
Simulate the coverage and capacity of the public safety network using the propagation module. You can adjust the parameters and settings to match your design goals and requirements. You can also view the results in different formats, such as heat maps, graphs, tables, etc.
Optimize the network performance using the optimization module. You can use the automatic or manual optimization features to improve the network quality indicators, such as RSSI (Received Signal Strength Indicator), BER (Bit Error Rate), SINAD (Signal to Noise and Distortion Ratio), etc.
Generate reports and documentation using the report module. You can create and customize professional reports and documentation that include all the relevant information about your project, such as project summary, design details, simulation results, bill of materials, etc. You can also export them in various formats, such as PDF, Word, Excel, etc.
Collaborate with other stakeholders using the collaboration module. You can share and synchronize your project with other users using the cloud storage and backup features. You can also use the comment and annotation features to communicate and exchange feedback with other users.
Others (e.g. IoT, CBRS, etc.)
Other wireless technologies are emerging and evolving to provide new and innovative solutions for various applications and use cases. Some of these technologies are IoT (Internet of Things), CBRS (Citizens Broadband Radio Service), LAA (Licensed Assisted Access), etc. These technologies use different frequency bands, protocols, and architectures to enable wireless connectivity and data transfer for devices, sensors, machines, etc.
iBwave Design 6 can help you design and optimize other wireless networks for indoor environments. You can use it to create 3D models of buildings, import floor plans and site surveys, select and place other wireless components, simulate coverage and capacity scenarios, optimize network performance, generate reports and documentation, and collaborate with other stakeholders.
Here are the steps to use iBwave Design 6 for other wireless network design:
Create a new project and select the other wireless technology you want to use (e.g. IoT, CBRS, LAA, etc.). You can also select the frequency bands, the network operator, and the country code.
Create a 3D model of the building using the built-in tools or import a floor plan from an image file or a CAD file. You can also import site survey data from iBwave Mobile or other sources.
Select and place the other wireless components from the database of over 35,000 products. You can choose from different types of devices, sensors, gateways, access points, routers, switches, cables, connectors, antennas, etc. You can also create custom components or import them from external sources.
Simulate the coverage and capacity of the other wireless network using the propagation module. You can adjust the parameters and settings to match your design goals and requirements. You can also view the results in different formats, such as heat maps, graphs, tables, etc.
Optimize the network performance using the optimization module. You can use the automatic or manual optimization features to improve the network quality indicators, such as RSSI (Received Signal Strength Indicator), SNR (Signal to Noise Ratio), throughput, latency, etc.
Generate reports and documentation using the report module. You can create and customize professional reports and documentation that include all the relevant information about your project, such as project summary, design details, simulation results, bill of materials, etc. You can also export them in various formats, such as PDF, Word, Excel, etc.
Collaborate with other stakeholders using the collaboration module. You can share and synchronize your project with other users using the cloud storage and backup features. You can also use the comment and annotation features to communicate and exchange feedback with other users.
How to generate reports and documentation using iBwave Design 6?
iBwave Design 6 has a powerful report module that allows you to generate reports and documentation for your projects. You can use it to create and customize professional reports and documentation that include all the relevant information about your project, such as project summary, design details, simulation results, bill of materials, etc. You can also export them in various formats, such as PDF, Word, Excel, etc.
Here are the steps to generate reports and documentation using iBwave Design 6:
Select the project you want to generate a report for from the project list.
Click on the Report tab on the top menu bar.
Select the type of report you want to generate from the report list. You can choose from different types of reports, such as Project Summary Report, Design Report, Simulation Report, Bill of Materials Report, etc.
Customize the report settings according to your preferences. You can change the report title, logo, header, footer, font, color, layout, etc.
Add or remove sections from the report content according to your needs. You can drag and drop sections from the section list to the report content area. You can also edit or delete sections by right-clicking on them.
Preview the report before exporting it by clicking on the Preview button on the bottom right corner.
Export the report in your desired format by clicking on the Export button on the bottom right corner. You can choose from different formats, such as PDF, Word, Excel, etc.
What are the risks and challenges of using cracked software?
Cracked software is software that has been modified or hacked to bypass or remove its original license or protection mechanism. Cracked software is often distributed through illegal or unauthorized channels, such as torrent sites, file-sharing platforms, dark web forums, etc.
Some people may use cracked software to avoid paying for it or to access features or functions that are not available in the original or legal version. However, using cracked software is not only illegal, but also risky and challenging. Here are some of the risks and challenges of using cracked software:
Legal issues
Using cracked software is a form of software piracy, which is a violation of intellectual property rights and laws. Software piracy can result in civil and criminal penalties, such as fines, lawsuits, injunctions, arrests, imprisonment, etc. Software piracy can also damage the reputation and credibility of the user and the organization they belong to.
For example, in 2019, a US company called CNC Software Inc. sued a Chinese company called ZWSOFT for allegedly using a cracked version of its software called Mastercam. CNC Software Inc. claimed that ZWSOFT infringed its copyrights and trademarks by