CCTVCAD | CCTV Design Software | VideoCADCCTV Design Software - CCTVCAD | VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images, and video equipment.[CCTV design software, CCTV design, CCTV lens calculator, lens calculator, CCTV calculator, CCTV design software, 3D CCTV, CCTV design tool.] VideoCAD 12 Professional Permanent License | CCTVCAD SoftwareVideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images, and video equipment. VideoCAD allows even beginners to use the new opportunities appearing to be hard to obtain without it due to the complexity of calculations and, therefore, not being used even by the skilled engineers of CCTV. VideoCAD practically boosts the quality of CCTV design to a new level which appears to be beyond any competition with those lacking the program. VideoCAD allows us to: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas for the detection and identification of a person and license plate reading. Calculate the horizontal projection of camera control areas, including shadows from obstacles on the scene. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Calculate the horizontal projection sizes of viewing, person detecting, identifying, and license plate reading areas to draw them on the location plan. Calculate the image size on a display of any object in the camera view area in the percentage of display size, pixels, TV lines, and millimeters (inches in the case of Imperial format). Calculate and model the depth of field of each camera in a project. Choose a relative location of cameras visually using the graphics window with the CAD interface. Choose the best positions and calculate the control areas of PTZ cameras. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats:*.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), AutoCAD *.dxf (R2000). Obtain a text file with a full description of all cameras in the project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Get a detailed adjustable table of all initial and calculated parameters of cameras in a project. Print the Table or export it to *.txt, *.csv,*.rtf, *.xls, *.htm formats. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Model observed scene parameters (illumination, visibility limitations). Model luminaires considering the spectrum of radiation and spectral sensitivity of image sensors, including discharge lamps with the complex spectrum and infrared LED illuminators. Model camera parameters (spectral response, number of pixels (including megapixel cameras with resolution exceeds screen resolution), resolution, minimum illumination at known signal/noise ratio, IRE and aperture, maximum signal/noise ratio, electronic shutter, AGC, BLC, gamma, day/night cameras, frame rate, interlaced scan, global shutter, and rolling shutter). Model lens parameters (focal length, aperture, auto-iris DC, and Video Drive). Model DVR parameters (brightness, contrast, compression, horizontal and vertical sharpness). Obtain an Image Model for each camera in the project based on models of the scene and equipment. This image can be printed and saved. Model moving objects, camera frame rate, and create animated images with moving 3D models—model blur and distortion of moving 3D models depending on camera parameters. Maintained a database of camera models, assigned different models for cameras in a project, and compared models with each other. Design operator interfaces using the Monitor window. Create animated monitor models as html files with moving 3D models and separate frame rates for each camera. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 12 Professional Permanent LicenseVideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images, and video equipment. VideoCAD allows even beginners to use the new opportunities appearing to be hard to obtain without it due to the complexity of calculations and, therefore, not being used even by the skilled engineers of CCTV. VideoCAD practically boosts the quality of CCTV design to a new level which appears to be beyond any competition with those lacking the program. VideoCAD allows us to: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas for the detection and identification of a person and license plate reading. Calculate the horizontal projection of camera control areas, including shadows from obstacles on the scene. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Calculate the horizontal projection sizes of viewing, person detecting, identifying, and license plate reading areas to draw them on the location plan. Calculate the image size on a display of any object in the camera view area in the percentage of display size, pixels, TV lines, and millimeters (inches in the case of Imperial format). Calculate and model the depth of field of each camera in a project. Choose a relative location of cameras visually using the graphics window with the CAD interface. Choose the best positions and calculate the control areas of PTZ cameras. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats:*.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), AutoCAD *.dxf (R2000). Obtain a text file with a full description of all cameras in the project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Get a detailed adjustable table of all initial and calculated parameters of cameras in a project. Print the Table or export it to *.txt, *.csv,*.rtf, *.xls, *.htm formats. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Model observed scene parameters (illumination, visibility limitations). Model luminaires considering the spectrum of radiation and spectral sensitivity of image sensors, including discharge lamps with the complex spectrum and infrared LED illuminators. Model camera parameters (spectral response, number of pixels (including megapixel cameras with resolution exceeds screen resolution), resolution, minimum illumination at known signal/noise ratio, IRE and aperture, maximum signal/noise ratio, electronic shutter, AGC, BLC, gamma, day/night cameras, frame rate, interlaced scan, global shutter, and rolling shutter). Model lens parameters (focal length, aperture, auto-iris DC, and Video Drive). Model DVR parameters (brightness, contrast, compression, horizontal and vertical sharpness). Obtain an Image Model for each camera in the project based on models of the scene and equipment. This image can be printed and saved. Model moving objects, camera frame rate, and create animated images with moving 3D models—model blur and distortion of moving 3D models depending on camera parameters. Maintained a database of camera models, assigned different models for cameras in a project, and compared models with each other. Design operator interfaces using the Monitor window. Create animated monitor models as html files with moving 3D models and separate frame rates for each camera. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 12 Professional (max 70 cameras). Promotion version. Permanent license | CCTVCAD SoftwareVideoCAD allows us to: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas for the detection and identification of a person and license plate reading. Calculate the horizontal projection of camera control areas, including shadows from obstacles on the scene. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Calculate the horizontal projection sizes of viewing, person detecting, identifying, and license plate reading areas to draw them on the location plan. Calculate the image size on a display of any object in the camera view area in the percentage of display size, pixels, TV lines, and millimeters (inches in the case of Imperial format). Calculate and model the depth of field of each camera in a project. Choose a relative location of cameras visually using the graphics window with the CAD interface. Choose the best positions and calculate the control areas of PTZ cameras. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats:*.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), AutoCAD *.dxf (R2000). Obtain a text file with a full description of all cameras in the project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Get a detailed adjustable table of all initial and calculated parameters of cameras in a project. Print the Table or export it to *.txt, *.csv,*.rtf, *.xls, *.htm formats. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Model observed scene parameters (illumination, visibility limitations). Model luminaires considering the spectrum of radiation and spectral sensitivity of image sensors, including discharge lamps with the complex spectrum and infrared LED illuminators. Model camera parameters (spectral response, number of pixels (including megapixel cameras with resolution exceeds screen resolution), resolution, minimum illumination at known signal/noise ratio, IRE and aperture, maximum signal/noise ratio, electronic shutter, AGC, BLC, gamma, day/night cameras, frame rate, interlaced scan, global shutter, and rolling shutter). Model lens parameters (focal length, aperture, auto-iris DC, and Video Drive). Model DVR parameters (brightness, contrast, compression, horizontal and vertical sharpness). Obtain an Image Model for each camera in the project based on models of the scene and equipment. This image can be printed and saved. Model moving objects, camera frame rate, and create animated images with moving 3D models—model blur and distortion of moving 3D models depending on camera parameters. Maintained a database of camera models, assigned different models for cameras in a project, and compared models with each other. Design operator interfaces using the Monitor window. Create animated monitor models as html files with moving 3D models and separate frame rates for each camera. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 12 Professional (max 70 cameras). Promotion version. Permanent licenseVideoCAD allows us to: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas for the detection and identification of a person and license plate reading. Calculate the horizontal projection of camera control areas, including shadows from obstacles on the scene. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Calculate the horizontal projection sizes of viewing, person detecting, identifying, and license plate reading areas to draw them on the location plan. Calculate the image size on a display of any object in the camera view area in the percentage of display size, pixels, TV lines, and millimeters (inches in the case of Imperial format). Calculate and model the depth of field of each camera in a project. Choose a relative location of cameras visually using the graphics window with the CAD interface. Choose the best positions and calculate the control areas of PTZ cameras. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats:*.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), AutoCAD *.dxf (R2000). Obtain a text file with a full description of all cameras in the project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Get a detailed adjustable table of all initial and calculated parameters of cameras in a project. Print the Table or export it to *.txt, *.csv,*.rtf, *.xls, *.htm formats. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Model observed scene parameters (illumination, visibility limitations). Model luminaires considering the spectrum of radiation and spectral sensitivity of image sensors, including discharge lamps with the complex spectrum and infrared LED illuminators. Model camera parameters (spectral response, number of pixels (including megapixel cameras with resolution exceeds screen resolution), resolution, minimum illumination at known signal/noise ratio, IRE and aperture, maximum signal/noise ratio, electronic shutter, AGC, BLC, gamma, day/night cameras, frame rate, interlaced scan, global shutter, and rolling shutter). Model lens parameters (focal length, aperture, auto-iris DC, and Video Drive). Model DVR parameters (brightness, contrast, compression, horizontal and vertical sharpness). Obtain an Image Model for each camera in the project based on models of the scene and equipment. This image can be printed and saved. Model moving objects, camera frame rate, and create animated images with moving 3D models—model blur and distortion of moving 3D models depending on camera parameters. Maintained a database of camera models, assigned different models for cameras in a project, and compared models with each other. Design operator interfaces using the Monitor window. Create animated monitor models as html files with moving 3D models and separate frame rates for each camera. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 8 Lite | CCTVCAD SoftwareVideoCAD 8 Lite - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images, and video equipment. VideoCAD Lite is an inexpensive version of VideoCAD with limited features. VideoCAD Lite offers only the most useful and easy-to-master tools for CCTV design. With VideoCAD 8 Lite, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats: *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), *.dxf (R2000). Obtain a text file with a full description of all cameras in a project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Design operator interfaces using the Monitor window. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 8 LiteVideoCAD 8 Lite - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images, and video equipment. VideoCAD Lite is an inexpensive version of VideoCAD with limited features. VideoCAD Lite offers only the most useful and easy-to-master tools for CCTV design. With VideoCAD 8 Lite, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats: *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), *.dxf (R2000). Obtain a text file with a full description of all cameras in a project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Design operator interfaces using the Monitor window. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 Lite with Dongle protection | CCTVCAD SoftwareVideoCAD 7 Lite with Dongle protection - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of a video image, and video equipment. VideoCAD Lite is an inexpensive version of VideoCAD with limited features. VideoCAD Lite offers only the most useful and easy-to-master tools for CCTV design. With VideoCAD 7 Lite, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats: *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), *.dxf (R2000). Obtain a text file with a full description of all cameras in a project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Design operator interfaces using the Monitor window. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 Lite with Dongle ProtectionVideoCAD 7 Lite with Dongle protection - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of a video image, and video equipment. VideoCAD Lite is an inexpensive version of VideoCAD with limited features. VideoCAD Lite offers only the most useful and easy-to-master tools for CCTV design. With VideoCAD 7 Lite, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors and hatch styles in different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras and cables on the prepared layouts in *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dwg, *.dxf formats. To import *.dwg and *.dxf files, the CAD Import module by CAD Soft Tools http://www.cadsofttools.com was used. Obtain a drawing containing two projections of the site layout with the camera images, calculated view areas, and cables, and with a coordinate grid and titles to be used in the graphical path of the project as well. Print the obtained drawing on one or several pages. You can use prepared frames with standard title-Block and logos. Export the obtained drawing into any of the following formats: *.bmp, *.jpg, *.emf, *.wmf, *.png, *.gif, *.tif, AutoCAD *.dxf (R14), *.dxf (R2000). Obtain a text file with a full description of all cameras in a project, view areas, and cables to be pasted into a project explanatory note or used as instruction for installation. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car, etc.). You can add your 3D models from 3ds Max and Google Sketchup. Design operator interfaces using the Monitor window. Calculate the length and electric parameters of cables. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 Starter II Kit (VideoCAD Starter II + IP Camera CCTV Calculator) | CCTVCAD SoftwareVideoCAD 7 Starter II Kit (VideoCAD Starter II + IP Camera CCTV Calculator + VideoCAD Plugin for Google SketchUp) - VideoCAD Starter II - low-cost version of CCTV design software - VideoCAD. VideoCAD Starter II differs from the Starter version by the presence of additional features formerly available in the Lite and Professional versions only. VideoCAD Starter II is offered only in a kit of three programs - VideoCAD Starter II Kit. This Kit includes VideoCAD Starter II, IP Camera CCTV Calculator, and VideoCAD Plugin for Google SketchUp. With VideoCAD 7 Starter II, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras on the prepared layouts in *.bmp, *.jpg, AutoCAD *.dwg, AutoCAD *.dxf formats. Obtain a drawing containing horizontal projections of the site layout with camera images, calculated view areas, and a coordinate grid to be used in the graphical path of the project. Export the obtained drawing into any of the following formats: *.bmp, *.jpg. They are saving the drawing in the Graphics windows with a resolution exceeding Windows screen resolution. Copy the Camera list with the most important parameters to MS Excel, MS Word, and other software. Construct three-dimensional models of real scenes. Use many 3D models (people, cars, buses, furniture, turnstile, tree, grass). You can add other 3D models from 3ds Max and Google Sketchup. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 Starter II Kit (VideoCAD Starter II + IP Camera CCTV Calculator)VideoCAD 7 Starter II Kit (VideoCAD Starter II + IP Camera CCTV Calculator + VideoCAD Plugin for Google SketchUp) - VideoCAD Starter II - low-cost version of CCTV design software - VideoCAD. VideoCAD Starter II differs from the Starter version by the presence of additional features formerly available in the Lite and Professional versions only. VideoCAD Starter II is offered only in a kit of three programs - VideoCAD Starter II Kit. This Kit includes VideoCAD Starter II, IP Camera CCTV Calculator, and VideoCAD Plugin for Google SketchUp. With VideoCAD 7 Starter II, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras on the prepared layouts in *.bmp, *.jpg, AutoCAD *.dwg, AutoCAD *.dxf formats. Obtain a drawing containing horizontal projections of the site layout with camera images, calculated view areas, and a coordinate grid to be used in the graphical path of the project. Export the obtained drawing into any of the following formats: *.bmp, *.jpg. They are saving the drawing in the Graphics windows with a resolution exceeding Windows screen resolution. Copy the Camera list with the most important parameters to MS Excel, MS Word, and other software. Construct three-dimensional models of real scenes. Use many 3D models (people, cars, buses, furniture, turnstile, tree, grass). You can add other 3D models from 3ds Max and Google Sketchup. Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 Starter | CCTVCAD SoftwareVideoCAD 7 Starter - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images and video equipment—VideoCAD Starter - the easiest, low-cost version of VideoCAD. VideoCAD Starter is registered only by personal registration code. This code doesn't depend on computer hardware or a dongle. This code is valid on any computer. VideoCAD Starter can not be upgraded to more powerful Lite and Professional versions. With VideoCAD 7 Starter, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras on the prepared layouts in *.bmp, *.jpg formats. Obtain a drawing containing horizontal projections of the site layout with camera images, calculated view areas, and a coordinate grid to be used in the graphical path of the project. Export the obtained drawing into any of the following formats: *.bmp, *.jpg. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car). Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. VideoCAD 7 StarterVideoCAD 7 Starter - VideoCAD is a multifunctional tool for professional video surveillance system design, modeling parameters of video images and video equipment—VideoCAD Starter - the easiest, low-cost version of VideoCAD. VideoCAD Starter is registered only by personal registration code. This code doesn't depend on computer hardware or a dongle. This code is valid on any computer. VideoCAD Starter can not be upgraded to more powerful Lite and Professional versions. With VideoCAD 7 Starter, you can: Choose the most suitable lenses, heights, and locations for camera installation to provide the required parameters of view areas. Calculate the horizontal projection sizes of view areas to draw them on the location plan. Display by separate colors different regions of spatial resolution and field-of-view size. Choose a relative location of cameras visually using the graphics window with the CAD interface. Locate cameras on the prepared layouts in *.bmp, *.jpg formats. Obtain a drawing containing horizontal projections of the site layout with camera images, calculated view areas, and a coordinate grid to be used in the graphical path of the project. Export the obtained drawing into any of the following formats: *.bmp, *.jpg. Construct three-dimensional models of real scenes with the possibility of loading prepared 3D models (a person, a car). Spare the means and win tenders due to the reduction of cameras' quantity in projects and increase of their efficiency. Reduce time expended and boost design quality. Cut down the number of controversial situations with customers and accelerate their solution. Camera Model Database add-on file, including parameters for up to 10 user-defined models, entered according to their specifications | CCTVCAD SoftwareYou can order a special file with the parameters of the cameras of your choice. The camera manufacturer's specifications are required to create the file. To get a file containing more than ten cameras, please order several files. Each order corresponds to no more than ten cameras [CCTV software, CCTV design, CCTV lens calculator, lens calculator, CCTV calculator, CCTV design software, 3D CCTV, CCTV design tool.] Camera Model Database add-on file, including parameters for up to 10 user-defined models, entered according to their specifications.You can order a special file with the parameters of the cameras of your choice. The camera manufacturer's specifications are required to create the file. To get a file containing more than ten cameras, please order several files. Each order corresponds to no more than ten cameras [CCTV software, CCTV design, CCTV lens calculator, lens calculator, CCTV calculator, CCTV design software, 3D CCTV, CCTV design tool.] IP camera CCTV Calculator | CCTVCAD SoftwareIP camera CCTV Calculator - CCTVCAD Calculator is a professional tool for calculating network bandwidth needed for IP cameras (video encoders) and disk space required for storing video archives. With CCTVCAD Calculator, you can: Calculate network traffic generated by digital (IP) cameras and video encoders for the proper design of network CCTV systems. Calculate disk space required for storing video archives during a specified time. The calculation can be carried out for cameras that generate up to 3 simultaneous video streams (Viewing, Recording, Alarm recording) with different resolutions, compression, frame rate, and recording time. The calculation can be carried out for a single camera, all cameras in the project, as well as for isolated groups of cameras, which is useful to estimate the load of separate network segments or equipment. Filtering and sorting are possible in the Table. It is possible to correct intermediate results of calculations (frame size, traffic) if you know more accurate experimental data. Calculations are based on practical results of measuring traffic. The results are combined in the Calculation Patterns, which are editable text files. Special patterns can be created by skilled users or manufacturers (distributors) of CCTV equipment by practical measurements of traffic for certain equipment, scenes, and compression algorithms. Different cameras in one project can be assigned different patterns. The patterns can include a list of supported camera models. If any model from the list is assigned to a camera in the Table, then the calculation for the camera performs according to the pattern. Thus the maximum possible calculation accuracy can be achieved. The patterns can contain results of traffic measurements for some averaged scenes with correction factors for their complexity and activity and the results of traffic measurement for real scenes. CCTVCAD Calculator can work with different sets of input data, depending on their availability and required accuracy. Default values will be assigned to unused fields. Unused columns in the Table can be hidden and excluded from the calculation. Created Table Views can be saved and restored when needed. Thus CCTVCAD Calculator can be a simple calculator for simplified calculation of only one stream from cameras, and a complex calculator, which takes into account three independent streams, color, sound, scene features, compression algorithm, and hardware in use. The source list of cameras can be entered manually or imported from the VideoCAD project file, from VideoCAD, installed on the same computer, or copied from an MS Excel table. The Table of results or its fragments can be printed or exported to the formats: *. Txt, *. csv, *. htm, *. rtf, *. Xls. IP camera CCTV CalculatorIP camera CCTV Calculator - CCTVCAD Calculator is a professional tool for calculating network bandwidth needed for IP cameras (video encoders) and disk space required for storing video archives. With CCTVCAD Calculator, you can: Calculate network traffic generated by digital (IP) cameras and video encoders for the proper design of network CCTV systems. Calculate disk space required for storing video archives during a specified time. The calculation can be carried out for cameras that generate up to 3 simultaneous video streams (Viewing, Recording, Alarm recording) with different resolutions, compression, frame rate, and recording time. The calculation can be carried out for a single camera, all cameras in the project, as well as for isolated groups of cameras, which is useful to estimate the load of separate network segments or equipment. Filtering and sorting are possible in the Table. It is possible to correct intermediate results of calculations (frame size, traffic) if you know more accurate experimental data. Calculations are based on practical results of measuring traffic. The results are combined in the Calculation Patterns, which are editable text files. Special patterns can be created by skilled users or manufacturers (distributors) of CCTV equipment by practical measurements of traffic for certain equipment, scenes, and compression algorithms. Different cameras in one project can be assigned different patterns. The patterns can include a list of supported camera models. If any model from the list is assigned to a camera in the Table, then the calculation for the camera performs according to the pattern. Thus the maximum possible calculation accuracy can be achieved. The patterns can contain results of traffic measurements for some averaged scenes with correction factors for their complexity and activity and the results of traffic measurement for real scenes. CCTVCAD Calculator can work with different sets of input data, depending on their availability and required accuracy. Default values will be assigned to unused fields. Unused columns in the Table can be hidden and excluded from the calculation. Created Table Views can be saved and restored when needed. Thus CCTVCAD Calculator can be a simple calculator for simplified calculation of only one stream from cameras, and a complex calculator, which takes into account three independent streams, color, sound, scene features, compression algorithm, and hardware in use. The source list of cameras can be entered manually or imported from the VideoCAD project file, from VideoCAD, installed on the same computer, or copied from an MS Excel table. The Table of results or its fragments can be printed or exported to the formats: *. Txt, *. csv, *. htm, *. rtf, *. Xls. CCTVCAD Lab Toolkit | CCTVCAD SoftwareCCTVCAD Lab Toolkit – is a collection of software tools and well-tested practical techniques intended for measuring parameters of various CCTV equipment (cameras, lenses, filters, light sources, and others). Using CCTVCAD Lab Toolkit, you can: Measure the sensitivity and resolution of real video cameras, optical transmission and resolution of lenses and filters, and infrared light power to obtain precise parameters for modeling (an illumination meter is additionally required). Measure exposure time and threshold illumination of IP cameras. Measure the rolling shutter row time of IP cameras with CMOS sensor (oscilloscope and low-frequency oscillator are additionally required). Analyze real video images and live video on the computer monitor. Measure frame rate, signal-to-noise ratio, and other parameters. Analyze separate lines of image, and measure object/background contrast. Determine from the Spectral Power Distribution curves and measure in practice the Spectral efficiency of visible and infrared light sources for the different image sensors. Independent measuring parameters of CCTV equipment are necessary for proper designing and modeling in VideoCAD because, commonly, manufacturers' specifications do not have enough parameters or parameter values are uncertain. CCTVCAD Lab ToolkitCCTVCAD Lab Toolkit – is a collection of software tools and well-tested practical techniques intended for measuring parameters of various CCTV equipment (cameras, lenses, filters, light sources, and others). Using CCTVCAD Lab Toolkit, you can: Measure the sensitivity and resolution of real video cameras, optical transmission and resolution of lenses and filters, and infrared light power to obtain precise parameters for modeling (an illumination meter is additionally required). Measure exposure time and threshold illumination of IP cameras. Measure the rolling shutter row time of IP cameras with CMOS sensor (oscilloscope and low-frequency oscillator are additionally required). Analyze real video images and live video on the computer monitor. Measure frame rate, signal-to-noise ratio, and other parameters. Analyze separate lines of image, and measure object/background contrast. Determine from the Spectral Power Distribution curves and measure in practice the Spectral efficiency of visible and infrared light sources for the different image sensors. Independent measuring parameters of CCTV equipment are necessary for proper designing and modeling in VideoCAD because, commonly, manufacturers' specifications do not have enough parameters or parameter values are uncertain. |