Our integrated solution combines a microscope, a digital camera, and accessories to simplify imaging and documentation and finds extensive applications in life science, educational, and industrial settings.
Our image analysis software platform integrates a comprehensive range of microscope solutions for applications in Life Science and industry, delivering exceptional flexibility. Our objective is to provide precise and reliable results, including confocal, widefield, stereo, super-resolution, and light-sheet instruments.
Built on cutting-edge AI-first architecture, it presents an innovative and fully inclusive platform for 2-to-5D image visualization, analysis, and interpretation, ensuring rapid and dependable processing of highly intricate images in minutes.
The high-performance tool facilitates compliance with international, regional, and organizational standards in industries such as automotive, transportation, metalworking, and construction, featuring an intuitive user interface for seamless image data acquisition and analysis, allowing operators to easily navigate through workflows tailored for multiple sample analysis, manual screening, and accreditation.
Features
Essential features of our Microscope Imaging Software
- The microscope software provides seamless integration between the microscope and digital camera, allowing users to configure and control both devices in a fully integrated manner. This ensures a smooth and efficient imaging workflow, with users able to capture and manage images without the need for separate controls.
- The powerful analysis software includes basic annotation tools that enable users to add relevant information and calibration data directly to images. This feature is essential for documenting observations and ensuring accuracy in measurements. Calibration data from microscopes and cameras are automatically incorporated, and a scale bar is displayed to indicate image size, facilitating precise analysis.
- The digital microscope camera software offers both automatic and manual exposure adjustments, allowing users to optimize imaging conditions based on the specific requirements of their samples. This flexibility ensures that users can adapt to varying light conditions and capture high-quality images. The ability to make exposure adjustments manually provides control over the imaging process for users with specific preferences or challenging imaging conditions.
- A thumbnail gallery feature in the software enables users to quickly and easily review acquired images. This not only enhances the efficiency of the review process but also aids in maintaining consistent accuracy over time. The ability to observe samples over the whole screen enhances the overall user experience, providing a detailed and comprehensive view for analysis.
- Streamlined and flexible measurement tools, including stitching in X, Y, and Z, contribute to the microscopy image analysis software's capability to provide reliable and reproducible results during analysis. Users can customize report templates to meet their specific needs, further enhancing the image processing software's versatility and adaptability to various research or analysis requirements.
Applications
Applications of Microscope Imaging Software
- Our imaging system facilitates in-depth exploration of complex interactions within 3D cell culture systems, such as organoids, providing researchers with the capability for both fast endpoint measurements and dynamic observations through live cell imaging, enabling comprehensive research of disease onset, tissue regeneration, and organ interactions in highly physiologically relevant environments.
- Discover new realms of cellular physiology and dynamics with our high-performance live-cell imaging solutions, which intelligently address challenges such as phototoxicity and photodamage, ensuring optimal image quality while preserving sample integrity and enabling insightful observations into processes like mitosis, embryonic development, and cytoskeleton changes in both healthy and disease states.
- Harness cutting-edge technology with our photoactivation system, utilizing the latest in photoswitchable fluorescent proteins, the scanner's customizable parameters, and seamless integration into microscope software, enabling precise tracking of molecular behavior in cells over time through selectively activated regions while ensuring an effortless design and execution of experiments.
FAQs
What is Aivia, and how does it enhance image processing and reconstruction?
Aivia is an AI-powered Image Analysis Software designed to enhance image processing and reconstruction by improving accuracy, streamlining workflows, and facilitating data exploration. It addresses challenges such as the subjectivity of analysis and poor reproducibility in biological image analysis by leveraging artificial intelligence, allowing researchers to unveil spatial insights in tissues, accurately segment cells in multiplexed 2D and 3D images using AI, and explore data through interactive charts and spatial relationship analyses.
What are the core features of microscope imaging software LAS X?
The core features of the microscope imaging software LAS X include its comprehensive support throughout the research workflow, providing ease of use for rapid team productivity and allowing configuration of objectives and filter cubes within the software without the need to exit. LAS X Navigator serves as a powerful navigation tool, offering a clear roadmap for sample analysis, while the Quantum Stage enables high-speed and precise positioning for optimal image acquisition, even at previously unattainable speeds. The software also facilitates smooth data handling with features like object selection and measurement viewing, automatic classification of results, and the ability to save and display data with comprehensive reports.
Can Aivia handle 2D image analysis for cell-related studies?
Yes, Aivia offers robust AI-powered tools for transforming multiplexed 2D data into spatial insights, enabling researchers to gain a deeper understanding of the microenvironment surrounding their phenotypes. It enables researchers to get a comprehensive view of large image datasets with millions of detected objects and unsupervised automatic clustering with up to 30 markers. It also provides a wide range of graphs and spatial measurements, enabling the collection of critical insights.