Shutter Stream 360° Product Photography + Video Software supports video composition, capture and and automated upload workflows to help make the 360 product video creation workflow fast and simple. Users will require a turntable to shoot 360 Product Videos. Turntable types include:

Shutter Stream helps users streamline 360° product photography & video workflows by integrating picture taking / video record, image editing, processing and output into a stand-alone application. Refined workflows will increase efficiencies up to 800%.

We sell you the software and are here to ensure you make the most of your investment. All purchases from Iconasys include one year free premium technical support and access to our online training sessions.

Users are able to see a large real time preview of  the cameras viewfinder within the software. As images are captured, they are uploaded into the software for instant feedback.

Shutter Stream 360 + Video is a one time purchase (no mandatory recurring fees) that will allow users to create infinite web-ready 360° Product Photography & Videos. All output is white labelled (no Iconasys branding) and there is no limitations.

In addition to automated background removal tools, users are able to color correct, enhance, adjust and apply other edits to a 360 product image set with a single click.

To calculate the working distance of a microscope, one needs to consider the microscope's tube length. The tube length refers to the distance between the objective lens and the eyepiece. It is an important factor in determining the working distance, which is the distance between the objective lens and the specimen being observed.

It is worth mentioning that advancements in microscope technology, such as the development of high numerical aperture objectives and the use of immersion techniques, have allowed for increased working distances while maintaining high resolution. These advancements have greatly improved the usability and versatility of microscopes in various fields of research and industry.

For example, if the focal length of the objective lens is 10mm and the focal length of the eyepiece is 5mm, the working distance would be:

Working distancemicroscope

It is important to note that the working distance can vary depending on the magnification and numerical aperture of the objective lens. Higher magnification lenses generally have shorter working distances. Additionally, the refractive index of the medium and the objective lens can also affect the working distance.

The objective lens length is the distance from the tip of the objective lens to the point where it focuses the image. This information is usually provided by the microscope manufacturer.

The refractive index of the medium is the index of refraction of the material between the objective lens and the cover glass, typically air or immersion oil. The thickness of the cover glass and specimen are the physical dimensions of these components.

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In conclusion, the working distance of a microscope can be calculated using the optical formula, taking into account the refractive index of the medium, thickness of the cover glass, and thickness of the specimen. However, it is important to consider that the working distance can vary depending on various factors, including the magnification, numerical aperture, and advancements in microscope technology.

It is also worth mentioning that advancements in microscope technology have led to the development of objectives with longer working distances. These objectives allow for imaging of thicker specimens or samples that require additional space between the lens and the specimen.

When working with a compatible camera, 360 product video capture is automated via software control. After video capture is complete, the video is instantly uploaded to the computer.

Working Distance = (Refractive Index of Medium × Thickness of Cover Glass) - (Refractive Index of Objective Lens × Thickness of Specimen)

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Next, determine the focal length of the eyepiece. This information is also provided by the manufacturer and can be found in the microscope's specifications. The eyepiece is the lens through which you view the specimen.

It is important to note that the working distance can vary depending on the magnification and numerical aperture of the objective lens. Higher magnification lenses generally have shorter working distances. Additionally, the working distance can be affected by the thickness of the coverslip or any other accessories used on the microscope.

To calculate the working distance of a microscope, you need to consider the eyepiece and focal length. The working distance refers to the distance between the objective lens and the specimen being observed.

It is recommended to consult the manufacturer's specifications or contact their technical support for accurate and up-to-date information on the working distance of a specific objective lens. They can provide the most accurate measurements and any additional considerations for your specific application.

To further enhance 360 Product Photography workflows and imaging consistencies, users are able to save a variety of profiles to provide a one click capture, editing, processing and output workflow.

Shutter Stream 360 Product Photography Software supports 360 product photography focus stacking (optional plugin) when working with an Iconasys 360 Photography Turntable.

Shutter Stream 360 Product Photography & Video Software allows users to convert a 360 product video into an interactive 360 product view. The process is fast and includes automated video capture and video upload into the software when working with an Iconasys 360 Product Photography Turntable (if using a 3rd party turntable, videos are manually imported into the software). The software will read the video file frame count and allow users to downsample (ex. extract every 10th video frame). After the extraction process is complete, users can batch edit, process and output the individual frames and/or create, customize and output a web-ready 360 product view.

The numerical aperture is a measure of the lens's ability to gather and resolve light. Higher numerical aperture lenses generally have shorter working distances. Therefore, as the magnification and numerical aperture increase, the working distance tends to decrease.

Iconasys 360 Photography & Video Solutions are trusted by some of the world’s leading brands & retailers along with thousands of professional photographers and small to medium size businesses. Our product range includes a range of stand alone software, turntables and lighting kits which can be used together as a complete turnkey solution for 360 product photography & video. These tools are designed for users of any skill level to easily and efficiently create high quality results. Additional info on the Iconasys product range can be found using the links below:

Regardless of turntable shooting mode, the software will automate 360 image capture, control important variables required for 360° Product Photography and instantly upload images (JPG and/or RAW) directly into the software after capture where users can batch edit, process and output individual frames (JPG, TIFF, RAW, PNG) and/or 360 product views. Iconasys sells various 360 Photography Turntables that can be purchased stand-alone or bundled with Shutter Stream 360 Product Photography Software to streamline and automate workflows.

The working distance of a microscope can be calculated by measuring the distance between the objective lens and the specimen being observed. This distance is typically measured in millimeters and can vary depending on the specific microscope and objective lens being used. It is important to note that the working distance may change when different objective lenses are used, as they have different focal lengths and magnification capabilities. To calculate the working distance, simply measure the distance between the objective lens and the specimen using a ruler or caliper.

Iconasys provides live demonstrations bi-weekly and are free to join. During the demo, we will walk through the 360° Product Photography creation process using Iconasys 360 photography equipment and software – while highlight features, workflows and best practices. Live demonstrations also include question and answer periods.

Working distanceof lens

Additionally, advancements in microscope technology have led to the development of objectives with longer working distances. These objectives allow for greater flexibility in specimen manipulation and can be particularly useful when working with thick or delicate samples.

Shutter Stream 360° Product Photography + Video Software enables any employee to Capture and Output high quality 360 results. The program is designed to cater to users of any skill level, from first time photographer to professional photographer.

It's important to note that the working distance can vary depending on the specific microscope model and the magnification being used. Higher magnifications often result in shorter working distances.

Capture a sequence of images at even intervals as an object rotates. The resulting images are composed into a 360 product view which users can interact with to view and zoom from any angle. The software supports 4 different automated tunable shooting modes to automate 360 image capture (360 product photography examples).

To determine the working distance, you need to refer to the objective lens specifications provided by the manufacturer. The working distance is usually indicated in millimeters (mm) and can vary depending on the magnification and numerical aperture (NA) of the lens.

The working distance of a microscope refers to the distance between the objective lens and the specimen being observed. It is an important parameter to consider when using a microscope, as it determines the amount of space available for manipulating the specimen or inserting additional tools.

Shutter Stream 360° Product Photography + Video Software is a one-time purchase (no mandatory recurring monthly or yearly fees), will allow users to create unlimited images and create infinite 360 product views and videos. 360° output from the software is completely unbranded (no Iconasys logo or info).

In conclusion, to calculate the working distance of a microscope, one needs to know the tube length and the objective lens length. By subtracting the objective lens length from the tube length, the working distance can be determined. However, it is important to consider other factors such as magnification, numerical aperture, and any additional accessories that may affect the working distance.

In conclusion, to calculate the working distance of a microscope, refer to the objective lens specifications provided by the manufacturer. Consider the magnification, numerical aperture, and any other relevant factors to determine the working distance accurately.

Shutter Stream 360 Product Photography & Video Software includes a powerful image editing suite with automated background removal tools which can be instantly be applied to an entire 360 product image set.

Motorized 360 Photography Turntable: These can be found in the open market. Users will want to ensure they use a turntable smooth, vibration free rotation that spins at a desired rate (or support variable speed).

When working with a compatible camera, users can automate 360 product image capture via computer. The software supports 4 turntable shooting modes.

First, determine the focal length of the objective lens. This information is usually provided by the manufacturer and can be found in the microscope's specifications. The focal length is the distance between the lens and the point where parallel rays of light converge.

Parfocal length

360° Product Photography and 360° Product Videos provide online sellers a better way to communicate products in the digital space. Often sellers are able to increase conversion rates and customer satisfaction while decreasing product returns through the use of 360 visuals in eCommerce. The ever growing 360 trend has been introduced on some of the world’s largest marketplaces (Amazon & Walmart.com) while also being used by some of the worlds biggest brands and retailers throughout the world as a way to enhance customer experience when shopping online.

To calculate the working distance of a microscope, you need to consider the specifications of the objective lens. The working distance is the distance between the front lens of the objective and the specimen being observed. It is an important factor to consider when choosing a microscope for specific applications.

It is important to note that the working distance is not a fixed value and can vary slightly depending on the microscope model and manufacturer. Additionally, the working distance can be affected by factors such as the thickness of the coverslip or any additional accessories used in the microscope setup.

The software displays a large real-time preview of what the camera sees on the monitor. This make composing 360° product photography & video simple (setting a fixed focal point, adjusting camera exposure settings, pre-crop) while aiding with object centering.

In conclusion, calculating the working distance of a microscope involves considering the focal lengths of the objective lens and the eyepiece. By subtracting the focal length of the eyepiece from the focal length of the objective lens, you can determine the working distance.

Shutter Stream is the only 360° product photography software that integrates camera control and automated 360 image capture. The software supports 4 different 360 photography turntable shooting modes: