Towards Reproducible Science: a few building blocks from my personal experienceOscar Corcho
Invited keynote given at the Second International Workshop on Semantics for BioDiversity (http://fusion.cs.uni-jena.de/s4biodiv2017/), held in conjunction with ISWC2017 (https://iswc2017.semanticweb.org/)
Trans disciplinary research is a must for excellence in science by Prof. Moha...Prof. Mohamed Labib Salem
In this talk, Prof. Mohamed L. Salem presents the importance of having a center of excellence at each institute to enhance and foster scientific research and innovation.
During this webinar, Dr. Parkins will review automated, time-lapse microscopy and image-based cell counting and discuss generating high-quality and robust data using the CytoSMART products offered by Scintica. The system specifications, potential applications, and example data will be discussed for the Lux2, the Lux3 FL, and the OMNI live cell imaging systems.
CytoSMART is an innovator in kinetic live-cell imaging. Combining compact and fast imaging hardware with powerful image analysis algorithms supported by cloud computing. Automation in time-lapse microscopy and image-based cell counting to generate high-quality and robust data.
Their team of engineers continues to develop and optimize the image analysis and data storage capacities linked to their systems, making sure that data sets are easily processed, stored, and kept securely in an online environment.
The CytoSMART Lux2 is a highly compact, easy-to-use, and affordable inverted microscope for bright-field live-cell imaging so it can be used in every biological laboratory. While it has functionality for basic imaging, it also has the capability to be used in routine cell culture processes like tracking confluency over time.
The CytoSMART Lux3 FL fluorescent cell imaging device allows researchers to track dynamic cellular processes by taking high-quality images to create real-time time-lapse movies. Simultaneously, the cells can be kept in a controlled environment inside a standard cell culture incubator.
The OMNI has been developed as an automated bright-field lab microscope that visualizes whole culture vessels and can even be used within a standard CO2-incubator. With the Omni, you can perform kinetic assays by creating time-lapse videos that depict cell behavior for days or weeks at a time.
Learning objectives:
What is live cell monitoring?
Advantages of live cell monitoring
Review unique system features
Discuss common applications
Review example images
Chemical sensing based ABC swarm intelligence algorithm for cancer treating n...sharma93vidushi
Nanorobots have been designed to perform specific functions inside the human body to bring relief from several ailments by circulating in the vascular system and destroying diseased cells like those of cancer. For efficient working and simple design, they need a swarm intelligence system to maintain high levels of coordination, collaboration, adaptability and biocompatibility. This presentation is focused upon the limitations of the existing swarm intelligence algorithms and new algorithm based on task allocation as in ABC and quorum sensing.
Towards Reproducible Science: a few building blocks from my personal experienceOscar Corcho
Invited keynote given at the Second International Workshop on Semantics for BioDiversity (http://fusion.cs.uni-jena.de/s4biodiv2017/), held in conjunction with ISWC2017 (https://iswc2017.semanticweb.org/)
Trans disciplinary research is a must for excellence in science by Prof. Moha...Prof. Mohamed Labib Salem
In this talk, Prof. Mohamed L. Salem presents the importance of having a center of excellence at each institute to enhance and foster scientific research and innovation.
During this webinar, Dr. Parkins will review automated, time-lapse microscopy and image-based cell counting and discuss generating high-quality and robust data using the CytoSMART products offered by Scintica. The system specifications, potential applications, and example data will be discussed for the Lux2, the Lux3 FL, and the OMNI live cell imaging systems.
CytoSMART is an innovator in kinetic live-cell imaging. Combining compact and fast imaging hardware with powerful image analysis algorithms supported by cloud computing. Automation in time-lapse microscopy and image-based cell counting to generate high-quality and robust data.
Their team of engineers continues to develop and optimize the image analysis and data storage capacities linked to their systems, making sure that data sets are easily processed, stored, and kept securely in an online environment.
The CytoSMART Lux2 is a highly compact, easy-to-use, and affordable inverted microscope for bright-field live-cell imaging so it can be used in every biological laboratory. While it has functionality for basic imaging, it also has the capability to be used in routine cell culture processes like tracking confluency over time.
The CytoSMART Lux3 FL fluorescent cell imaging device allows researchers to track dynamic cellular processes by taking high-quality images to create real-time time-lapse movies. Simultaneously, the cells can be kept in a controlled environment inside a standard cell culture incubator.
The OMNI has been developed as an automated bright-field lab microscope that visualizes whole culture vessels and can even be used within a standard CO2-incubator. With the Omni, you can perform kinetic assays by creating time-lapse videos that depict cell behavior for days or weeks at a time.
Learning objectives:
What is live cell monitoring?
Advantages of live cell monitoring
Review unique system features
Discuss common applications
Review example images
Chemical sensing based ABC swarm intelligence algorithm for cancer treating n...sharma93vidushi
Nanorobots have been designed to perform specific functions inside the human body to bring relief from several ailments by circulating in the vascular system and destroying diseased cells like those of cancer. For efficient working and simple design, they need a swarm intelligence system to maintain high levels of coordination, collaboration, adaptability and biocompatibility. This presentation is focused upon the limitations of the existing swarm intelligence algorithms and new algorithm based on task allocation as in ABC and quorum sensing.
OpenPOWER Academia and Research team's webinar - Presentations from Oak Ridg...Ganesan Narayanasamy
OpenPOWER Academia and Research team's webinar - Powerful supercomputer built using IBM POWER9 Systems to help fight against CoViD-19 and Machine Learning for Academic Research on OpenPOWER.
Design of Organ-On-A-Chip - Creative Biolabs.pptxCreative-Biolabs
Creative Biolabs has developed an extensive microfluidic technology platform, offering customers one-stop services covering all aspects of microfluidic research and evaluation. This includes the design and manufacturing of organ-on-a-chip (OOC) systems, as well as personalized, customized solutions tailored to individual needs.
This slide briefly introduces our OOC design concepts. If you require further details, products, and services related to OOC, please follow us to stay updated and informed.
(May 17, 2021) Introducing the Newton 7.0 Optical Imaging System: The Modalit...Scintica Instrumentation
In this webinar, Katie reviewed how optical imaging works and provided some common examples of how it’s used within preclinical research. She introduced the Newton 7.0 FT500, an optical imaging system manufactured by Vilber that included bioluminescence, fluorescence, and 3D tomography capabilities. She concluded the webinar by going through some of the most common questions/considerations that come up for those looking to add optical imaging capabilities to their lab.
The Newton 7.0 is a highly sensitive optical imaging system dedicated to preclinical imaging of small animals in vivo, and may also be used on a variety of in vitro and ex vivo samples. It combines the best optics and animal handling features for high-quality image data and quantification. The Newton 7.0 system is capable of bioluminescence, fluorescence as well as 3D tomographic imaging.
The system is:
User-friendly
Does not require any radiation to acquire images
Is non-invasive, allowing for longitudinal studies
Allows for up to 5 mice or 3 rats to be imaged simultaneously
The Newton 7.0 is highly sensitive and can be used in a wide variety of research applications. Various bioluminescent reporters like firefly luciferase and many fluorescent molecular reagents can be used to visualize and track tumors, monitor disease or inflammation development, target molecules to nanoparticles or follow biodistribution and pharmacokinetics noninvasively.
Whether you are just exploring the idea of adding optical capabilities to your lab or you’ve been imaging for years, you won’t want to miss the opportunity to learn about this cool new technology and ask questions about your specific research applications and study design.
Learning objectives:
How does optical imaging work?
Common applications of preclinical optical imaging
A product overview: Newton 7.0 FT500
What makes the system unique?
How to add optical imaging capabilities to your lab?
In collaboration with The Keenan Research Center for Biomedical Science, Toronto
REVOLUTIONIZING RESEARCH: CUTTING-EDGE TECHNOLOGIES IN LAB EQUIPMENTFalcon Geomatics LLC
Let's take a closer look at some of the most exciting innovations revolutionizing research in laboratories worldwide.
Know More: https://www.falcon-geosystems.com/scientific-equipment/
Inaugurated in Thuwal (Saudi Arabia) in September 2009, King Abdullah University of Science and Technology (KAUST) is a graduate-level teaching and research institution situated 90 km north of Jeddah, along the coast of the Red Sea, and funded by a $10 billion endowment from the Saudi monarch. The 36-square-kilometer KAUST campus is composed of state-of-the-art facilities that place it in the forefront of world institutions for scientific research. KAUST’s leading-edge resources include Shaheen, the Middle East’s most powerful supercomputer, and the Scientific Visualization Core Laboratory. As one the initial five Core Labs in the university, the Visualization Lab includes more than a dozen core systems ranging from stereoscopic 3D immersive environments and multiple tiled display walls to development rooms and lecture halls. As part of its services to the university, the Visualization Lab facilitates research into three-dimensional geological structures, oceanographic processes, and the effects of dynamic seismic and atmospheric activity on planned or existing infrastructure. By forming partnerships with universities around the world, KAUST has created a global network for research across multiple academic disciplines, ranging from environmental and biological sciences to applied mathematics and chemical engineering.
Through establishment of the Scientific Visualization Laboratory Core Labs, KAUST has vaulted to the forefront of this new discipline. With multiple rooms linked by fiber optic data networks, the Visualization Center encompasses more than a dozen “sci-vis” systems of various types, ranging from precedent-setting, stereoscopic 3D environments to development rooms and lecture halls. The Visualization Center expects to facilitate research into three-dimensional geological structures, oceanographic processes, and the effects of dynamic seismic and atmospheric activity on planned or existing infrastructure.
Here are 10 Software Tools and Platforms for Digital Pathology: 1. AperioImageScope 2. HCImage Hamamatsu software 3. OptraASSAYS 4. Image-Pro 5. APP Center
In this deck from the 2014 HPC User Forum in Seattle, Jack Collins from the National Cancer Institute presents: Genomes to Structures to Function: The Role of HPC.
Watch the video presentation: http://wp.me/p3RLHQ-d28
dkNET Webinar: The Human BioMolecular Atlas Program (HuBMAP) 10/14/2022dkNET
Abstract
HuBMAP aims to catalyze the development of an open, global framework for comprehensively mapping the human body at cellular resolution. HuBMAP goals include: (1) Accelerate the development of the next generation of tools and techniques for constructing high resolution spatial tissue maps. (2) Generate foundational 3D tissue atlases. (3) Establish an open data platform. (4) Coordinate and collaborate with other funding agencies, programs, and the biomedical research community. (5) Support projects that demonstrate the value of the resources developed by the program. The HuBMAP Portal can be found at https://portal.hubmapconsortium.org and the Visible Human MOOC describes the compilation and coverage of HuBMAP data, demonstrates new single-cell analysis and mapping techniques, and introduces major features of the HuBMAP portal.
The top 3 key questions that HuBMAP can answer:
1. What assay types are best to map the human body in 3D and across scales?
2. What Common Coordinate System (CCF) is best to construct the Human Reference Atlas?
3. How can others help construct and/or use the Human Reference Atlas?
Presenters:
Katy Börner, PhD, Victor H. Yngve Distinguished Professor of Engineering and Information Science, Department of Intelligent Systems Engineering and Information Science, Indiana University
Jeffrey Spraggins, PhD, Assistant Professor, Department of Cell and Developmental Biology, Vanderbilt University
Upcoming webinars schedule: https://dknet.org/about/webinar
In this second session of the IVM webinar series, we take a deeper look at the IVM all-in-one intravital microscope. The IVM system is a carefully engineered state-of-the-art intravital fluorescence microscopy platform optimized to perform real-time imaging of dynamic phenomena in in vivo tissues at a cellular level. This technique can serve as a next generation core technology to elucidate the pathophysiology of various human diseases and assist in the discovery of new cures. We will review the different modules of the system allowing for intravital confocal and/or two-photon imaging, along with the features and benefits of each set-up.
Key Features
All-in-one intravital microscopy system with a flexible design for modification and updates
Optimized for in vivo observation of dynamic processes in mouse models of human disease
Four-color simultaneous confocal/two-photon imaging
Sub-µm image resolution and ultrafast video-rate imaging (max. 100 fps - 512x512 pixels)
Integrated automatic high-precision motion artifact compensation
Key Applications
In Vivo 4D cell imaging, tracking and monitoring
In Vivo visualization of dynamic molecular & cellular mechanisms
In Vivo efficacy monitoring of novel drug compound
In Vivo monitoring of material delivery target tissues
In Vivo real-time imaging of microcirculation
OpenPOWER Academia and Research team's webinar - Presentations from Oak Ridg...Ganesan Narayanasamy
OpenPOWER Academia and Research team's webinar - Powerful supercomputer built using IBM POWER9 Systems to help fight against CoViD-19 and Machine Learning for Academic Research on OpenPOWER.
Design of Organ-On-A-Chip - Creative Biolabs.pptxCreative-Biolabs
Creative Biolabs has developed an extensive microfluidic technology platform, offering customers one-stop services covering all aspects of microfluidic research and evaluation. This includes the design and manufacturing of organ-on-a-chip (OOC) systems, as well as personalized, customized solutions tailored to individual needs.
This slide briefly introduces our OOC design concepts. If you require further details, products, and services related to OOC, please follow us to stay updated and informed.
(May 17, 2021) Introducing the Newton 7.0 Optical Imaging System: The Modalit...Scintica Instrumentation
In this webinar, Katie reviewed how optical imaging works and provided some common examples of how it’s used within preclinical research. She introduced the Newton 7.0 FT500, an optical imaging system manufactured by Vilber that included bioluminescence, fluorescence, and 3D tomography capabilities. She concluded the webinar by going through some of the most common questions/considerations that come up for those looking to add optical imaging capabilities to their lab.
The Newton 7.0 is a highly sensitive optical imaging system dedicated to preclinical imaging of small animals in vivo, and may also be used on a variety of in vitro and ex vivo samples. It combines the best optics and animal handling features for high-quality image data and quantification. The Newton 7.0 system is capable of bioluminescence, fluorescence as well as 3D tomographic imaging.
The system is:
User-friendly
Does not require any radiation to acquire images
Is non-invasive, allowing for longitudinal studies
Allows for up to 5 mice or 3 rats to be imaged simultaneously
The Newton 7.0 is highly sensitive and can be used in a wide variety of research applications. Various bioluminescent reporters like firefly luciferase and many fluorescent molecular reagents can be used to visualize and track tumors, monitor disease or inflammation development, target molecules to nanoparticles or follow biodistribution and pharmacokinetics noninvasively.
Whether you are just exploring the idea of adding optical capabilities to your lab or you’ve been imaging for years, you won’t want to miss the opportunity to learn about this cool new technology and ask questions about your specific research applications and study design.
Learning objectives:
How does optical imaging work?
Common applications of preclinical optical imaging
A product overview: Newton 7.0 FT500
What makes the system unique?
How to add optical imaging capabilities to your lab?
In collaboration with The Keenan Research Center for Biomedical Science, Toronto
REVOLUTIONIZING RESEARCH: CUTTING-EDGE TECHNOLOGIES IN LAB EQUIPMENTFalcon Geomatics LLC
Let's take a closer look at some of the most exciting innovations revolutionizing research in laboratories worldwide.
Know More: https://www.falcon-geosystems.com/scientific-equipment/
Inaugurated in Thuwal (Saudi Arabia) in September 2009, King Abdullah University of Science and Technology (KAUST) is a graduate-level teaching and research institution situated 90 km north of Jeddah, along the coast of the Red Sea, and funded by a $10 billion endowment from the Saudi monarch. The 36-square-kilometer KAUST campus is composed of state-of-the-art facilities that place it in the forefront of world institutions for scientific research. KAUST’s leading-edge resources include Shaheen, the Middle East’s most powerful supercomputer, and the Scientific Visualization Core Laboratory. As one the initial five Core Labs in the university, the Visualization Lab includes more than a dozen core systems ranging from stereoscopic 3D immersive environments and multiple tiled display walls to development rooms and lecture halls. As part of its services to the university, the Visualization Lab facilitates research into three-dimensional geological structures, oceanographic processes, and the effects of dynamic seismic and atmospheric activity on planned or existing infrastructure. By forming partnerships with universities around the world, KAUST has created a global network for research across multiple academic disciplines, ranging from environmental and biological sciences to applied mathematics and chemical engineering.
Through establishment of the Scientific Visualization Laboratory Core Labs, KAUST has vaulted to the forefront of this new discipline. With multiple rooms linked by fiber optic data networks, the Visualization Center encompasses more than a dozen “sci-vis” systems of various types, ranging from precedent-setting, stereoscopic 3D environments to development rooms and lecture halls. The Visualization Center expects to facilitate research into three-dimensional geological structures, oceanographic processes, and the effects of dynamic seismic and atmospheric activity on planned or existing infrastructure.
Here are 10 Software Tools and Platforms for Digital Pathology: 1. AperioImageScope 2. HCImage Hamamatsu software 3. OptraASSAYS 4. Image-Pro 5. APP Center
In this deck from the 2014 HPC User Forum in Seattle, Jack Collins from the National Cancer Institute presents: Genomes to Structures to Function: The Role of HPC.
Watch the video presentation: http://wp.me/p3RLHQ-d28
dkNET Webinar: The Human BioMolecular Atlas Program (HuBMAP) 10/14/2022dkNET
Abstract
HuBMAP aims to catalyze the development of an open, global framework for comprehensively mapping the human body at cellular resolution. HuBMAP goals include: (1) Accelerate the development of the next generation of tools and techniques for constructing high resolution spatial tissue maps. (2) Generate foundational 3D tissue atlases. (3) Establish an open data platform. (4) Coordinate and collaborate with other funding agencies, programs, and the biomedical research community. (5) Support projects that demonstrate the value of the resources developed by the program. The HuBMAP Portal can be found at https://portal.hubmapconsortium.org and the Visible Human MOOC describes the compilation and coverage of HuBMAP data, demonstrates new single-cell analysis and mapping techniques, and introduces major features of the HuBMAP portal.
The top 3 key questions that HuBMAP can answer:
1. What assay types are best to map the human body in 3D and across scales?
2. What Common Coordinate System (CCF) is best to construct the Human Reference Atlas?
3. How can others help construct and/or use the Human Reference Atlas?
Presenters:
Katy Börner, PhD, Victor H. Yngve Distinguished Professor of Engineering and Information Science, Department of Intelligent Systems Engineering and Information Science, Indiana University
Jeffrey Spraggins, PhD, Assistant Professor, Department of Cell and Developmental Biology, Vanderbilt University
Upcoming webinars schedule: https://dknet.org/about/webinar
In this second session of the IVM webinar series, we take a deeper look at the IVM all-in-one intravital microscope. The IVM system is a carefully engineered state-of-the-art intravital fluorescence microscopy platform optimized to perform real-time imaging of dynamic phenomena in in vivo tissues at a cellular level. This technique can serve as a next generation core technology to elucidate the pathophysiology of various human diseases and assist in the discovery of new cures. We will review the different modules of the system allowing for intravital confocal and/or two-photon imaging, along with the features and benefits of each set-up.
Key Features
All-in-one intravital microscopy system with a flexible design for modification and updates
Optimized for in vivo observation of dynamic processes in mouse models of human disease
Four-color simultaneous confocal/two-photon imaging
Sub-µm image resolution and ultrafast video-rate imaging (max. 100 fps - 512x512 pixels)
Integrated automatic high-precision motion artifact compensation
Key Applications
In Vivo 4D cell imaging, tracking and monitoring
In Vivo visualization of dynamic molecular & cellular mechanisms
In Vivo efficacy monitoring of novel drug compound
In Vivo monitoring of material delivery target tissues
In Vivo real-time imaging of microcirculation
Similar to Flash and bio lab package SlideShare (20)
Implicitly or explicitly all competing businesses employ a strategy to select a mix
of marketing resources. Formulating such competitive strategies fundamentally
involves recognizing relationships between elements of the marketing mix (e.g.,
price and product quality), as well as assessing competitive and market conditions
(i.e., industry structure in the language of economics).
Digital Transformation and IT Strategy Toolkit and TemplatesAurelien Domont, MBA
This Digital Transformation and IT Strategy Toolkit was created by ex-McKinsey, Deloitte and BCG Management Consultants, after more than 5,000 hours of work. It is considered the world's best & most comprehensive Digital Transformation and IT Strategy Toolkit. It includes all the Frameworks, Best Practices & Templates required to successfully undertake the Digital Transformation of your organization and define a robust IT Strategy.
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At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
Navigating the world of forex trading can be challenging, especially for beginners. To help you make an informed decision, we have comprehensively compared the best forex brokers in India for 2024. This article, reviewed by Top Forex Brokers Review, will cover featured award winners, the best forex brokers, featured offers, the best copy trading platforms, the best forex brokers for beginners, the best MetaTrader brokers, and recently updated reviews. We will focus on FP Markets, Black Bull, EightCap, IC Markets, and Octa.
Tata Group Dials Taiwan for Its Chipmaking Ambition in Gujarat’s DholeraAvirahi City Dholera
The Tata Group, a titan of Indian industry, is making waves with its advanced talks with Taiwanese chipmakers Powerchip Semiconductor Manufacturing Corporation (PSMC) and UMC Group. The goal? Establishing a cutting-edge semiconductor fabrication unit (fab) in Dholera, Gujarat. This isn’t just any project; it’s a potential game changer for India’s chipmaking aspirations and a boon for investors seeking promising residential projects in dholera sir.
Visit : https://www.avirahi.com/blog/tata-group-dials-taiwan-for-its-chipmaking-ambition-in-gujarats-dholera/
buy old yahoo accounts buy yahoo accountsSusan Laney
As a business owner, I understand the importance of having a strong online presence and leveraging various digital platforms to reach and engage with your target audience. One often overlooked yet highly valuable asset in this regard is the humble Yahoo account. While many may perceive Yahoo as a relic of the past, the truth is that these accounts still hold immense potential for businesses of all sizes.
B2B payments are rapidly changing. Find out the 5 key questions you need to be asking yourself to be sure you are mastering B2B payments today. Learn more at www.BlueSnap.com.
Personal Brand Statement:
As an Army veteran dedicated to lifelong learning, I bring a disciplined, strategic mindset to my pursuits. I am constantly expanding my knowledge to innovate and lead effectively. My journey is driven by a commitment to excellence, and to make a meaningful impact in the world.
Premium MEAN Stack Development Solutions for Modern BusinessesSynapseIndia
Stay ahead of the curve with our premium MEAN Stack Development Solutions. Our expert developers utilize MongoDB, Express.js, AngularJS, and Node.js to create modern and responsive web applications. Trust us for cutting-edge solutions that drive your business growth and success.
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Flash and bio lab package SlideShare
1. NASA’s astronaut Andrew “Drew” Morgan onboard the International Space
Station, adjusts a Mobile Space Biolab largely designed by SCORPIOV.
Technologies NASA,U. S. Department of Defense, FDA & U. S. Military USE & TRUST
2. The FLASH Hyperdimensional
COVID-19 Detector is a compact
handheld detector that rapidly
detects atoms and molecules
which express themselves as
electromagnetic patterns.
This technology captures and
processes a vast number of
wavelengths of an image like
a molecular fingerprint.
The process is a non-invasive
diagnostic system that is patented
and utilizes a proprietary next
generation hyperspectral
imaging analysis.
Holographic Memory Stores
Hyperdimensional Images and
Scans in Dynamic Database
Dynamic Database
"Big Data“
Track and Trace
Actual Hyperdimensional
Scan of Human Face
The Human Component: Trained
Professionals to Conduct Screening,
Curate and Pass or Fail Subjects
Similar to Current TSA and
Temperature FLIR Systems
FLASH: Is a Self-Calibrating Hyperdimensional COVID-19 Detection System
Easily Deployed, Simple Point and Click Results
3. COVID VIRUS
HNu CEO: Dan O’Connell
Inventor: FLASH Detector
Focus Areas: Leading Edge Photonics Development
In cooperation with the US Government,
FLASH will be programmed with the
COVID-19 signature for real time detection.
4. • We now see deeper than ever thought possible…
• Observe effects of reagents in real time and
• Detect sub-100nm particles
This will enable us to deliver immediate and
accurate COVID-19 Test Results in the field.
5. O’Connell Microscope detects Fluorophores of 1nm
O’CONNELL Optical, real
time, able to observe Live
Tissue, cells, pathogens and
and virus at Sub-100 NM as a
confocal microscope system.
6. HNu’s Contract Services with the IIS:
HNu’s SCORPIOV Bio SpaceLab is a versatile platform
that c u r r e n t l y conducts live-cell biological
interrogations on SpaceX vehicles and the
International Space Station (ISS) .
The Bio SpaceLab allows researchers to perform long-
term (1-3 months) live-cell microgravity interrogations
with automated microscopy analysis, environmental
control of samples and automated reagent delivery.
Mobile Space Lab Capabilities Overview
The Bio Lab facility is designed to perform a vast array
of biological interrogations while allowing for real-time
microscopy observations on a minute to hour basis.
Example experiments include:
- Quantifying cancer tumor progression in 3D,
observing bacterial replication rates in microgravity
and culturing suspension plant cell cultures.
- Bright-field and phase contrast imaging with
transmitted light&magnifications ranging from 2X-40X.
- Fluorescence microscopy to image a variety of
fluorophores. Full SCORPIO-V operational support.
- Automated microscopy analysis, environmental
control of samples and automated reagent delivery
7. FLASH: This is a device that can scan a person using non-invasive photographic technology
that can go down to the molecular level in nanograms. FLASH CHQR provides REAL-TIME
detection and identification of the chemical composition of INDIVIDUAL Fluorophores that
are the size of 20-100 atoms.
FLASH uses camera microscope technology that can
analyze samples for dangerous pathogens very quickly
and with extreme accuracy.
However this is not a new technology.
FLASH has been used by NASA for over 15 years in
finding exoplanets more than a million light years
away from earth. It was then adapted and used by
the Dept. of Defense for classified use cases.
FLASH is so versatile and powerful with the device’s
camera / microscope that can look at the molecular
fingerprint of atoms. FLASH can look at living cells beyond
the spectrum of light to the depth of sub 100 nanometers. This was thought to be impossible;
however, for over 15 years FLASH has looking into the building blocks of lifeand the universe.
FLASH
(FAST LIGHT ATTRIBUTE SENSING HYPERSPECTRAL)
8. CHQR ID (Color Holographic Quick Response) is an identification system that utilizes
3D holographic codes uniquely created for each individual. It's protected with military-
grade encryption; cannot be copied, hacked or altered. CHQRTM ID can be printed as
a physical label or created as a digital ID.
Integration with Inventory and Trace & Track Software The CHQR 3D codes can be integrated
with existing ERP systems such as SAP and Oracle. It can also be integrated with Track and
Trace software as well as cutting edge Blockchain supply chain implementations.
CHQR ID
9. BioChip SpaceLab
SCORPIO-Vs BioChip SpaceLab (BCSL) is an accessible platform that enables academic and industry
investigators to automate live-cell culture experiments with sophisticated microscopy techniques in the
microgravity environment on-board the International Space Station (ISS).
Our Team offers experiment design, customization and end-to-end support for BCSL users, allowing the
investigator to focus on her research.
Keep these computer
Graphics if you like
Replace Graphic
10. Bright-field
• The BioChip SpaceLab allows investigators to
observe live-cell cultures on a minutes to hour basis
for the duration of the experiment.
• The Lab using phrase-contrast imaging capabilities
allow investigators to:
- Characterize confluence, cell growth, and proliferation
- Observe cell function, migration, and morphology.
These capabilities support Adherent, Suspension,
and Organinoid cell cultures.
Fluorescence
• The use of fluorescent microscopy allows for investigators to
characterize cellular processes and sub-cellular processes and
sub-cellular functions in real time for the duration of the experiment.
• The BioChip SpaceLab provides 7 Laser excitation wavelengths and
multiple dichroic and emission filters offer a wide array of fluorescent
imaging capabilities.
Microscopy
• The BioChip SpaceLab offers fully automated time-
lapse live-cell imaging using an imaging system that
supports bright-field and fluorescence microscopy.
• We support 4x, 10x, 20x and 60x magnification.
11. FLASH IS A REAL-TIME POINT & SHOOT SENSOR and DETECTION DEVICE
• FLASH looks at the ELECTRONIC FIELD and PHOTONIC SPECTRUM of a sample.
• FLASH then identifies if a Biologic or Compound IS or IS NOT present which enabled the device to give
a GO/No GO Determination.
• CHQR is a REAL-TIME Tamper Proof TRACK and TRACE Secure Digital Record of the FLASH DATA.
CHQR is currently utilized by the DEPARTMENT OF DEFENSE, DEFENSE LOGISTICS AGENCY (DLA) to
TRACK and TRACE Mission Critical Components supporting National Security Assets.
• FLASH CHQR can accelerate Safe Access to Areas of Responsibility such as Aircraft, Secured Office
Buildings, Outdoor Events…
• FLASH Amplifies the Targets ELECTROMAGNETIC SPECTRUM in the FIELD, is rapidly deployable and
takes minimal Training (15 to 20mins).
• FLASH and CHQR are designed for Mass Deployment for REAL-TIME SCREENING of Biological and
Compound Targets to include COVID-19.
• FLASH ( FAST LIGHT ATTRIBUTE SENSING HYPERSPECTRAL )
• CHQR ( COLOR HOLOGRAPHIC QUICK RESPONSE CODES )
12. FLASH CHQR IS BUILT ON THE TRANSPARENCY MODEL
BETWEEN THE PUBLIC AND PRIVATE SECTOR
• FLASH CHQR Family of Technologies have been used by GOVERNEMTN AND PRIVATE REASEARCH
in stringent Clinical and Security-Based Settings with components c u r r e n t l y flying on the
ISS ( INTERNATIONAL SPACE STATION ).
• FLASH CHQR is pursuing parallel adoption with Government and Private Sector to Accelerate use
in the FIELD. This parallel process allows us to reach both Markets simultaneously
• FLASH CHQR is to be submitted to the FDA under EMERGENCY USE AUTHORIZATION.
• FLASH CHQR will also be submitted for support under the CARES ACT MANUFACTURING PROCESS.
13. The Department of Defense has a 10-year history with HNu technology. In coordination with the Defense Logistic
Agency, “DLA” through their Defense Innovations Unit “DIU”, the DOD is reviewing the companies FLASH CHQR
COVID-19 DETECTOR (FLASH).
Our Company and inhouse Lead Scientific Team is collaborating with a BSL Laboratory to determine how to proceed
under Clinical Therapeutic Protocol(s) with the detection of COVID-19 and other target pathogens and compounds.
A major University’s Biomedical Research Laboratory has been
identified to serve as the Primary Investigator with the intent to
conduct testing under the supervision of one of the nation’s
Top Virologist and CBRN Scientist. Other University/Hospitals
will serve as Validating Laboratories and provide Peer review
and validate the findings of FLASH CHQR in the designated US
Government sponsored BSL level Primary Laboratory.
We believe that FLASH CHQR represents high-confidence level
screening capabilities well beyond the current Forward Looking
Infrared “FLIR” temperature systems, Mass Spectrometry,
Electron Microscopes, Reagents and rtPCR testings.
14. ISS -- HNu Photonics Space-Lab
Objective: The HNu Scorpio-V Bio-Chip Space-Lab (BCSL) provides an accessible platform that enables academic
and industry researchers to perform long-term automated cell culturing experiments with live-cell imaging in the
unique microgravity environment on-board the International Space Station.
Scorpio-V Bio-Chip IIS Space-Lab
Long-Term Live-Cell Imaging Capabilities
• Automated imaging system allows phase-contrast, DIC and
fluorescence imaging.
• Selectable microscope objectives.
• Selectable wavelengths for fluorescence imaging. Arrays of
selectable dichroic filters and emission filters.
• Automated positioning allows long-term time-course imaging
of all biochips in BCSL at user-defined scan frequency.
https://www.issnationallab.org/implementation-partners/hnu-photonics-llc/
HNu CEO: Dan O’Connell
Focus Areas: Leading Edge Photonics Development
15. BIOLAB: PIER REVIEW PACKAGE (PRP)
The four components in this BIOLAB package will revolutionize how science is done for in your laboratories.
BIOLAB: Provides real time micro-fluidics, for human and non-human cell incubator, cell line, antibody,
vaccine accelerator, and automated research platform as flown on NASA International Space
Station.
Microscope O’CONNELL Optical: Provides real time, ability to observe live tissue, cells, pathogens
and virus at Sub-100 NM as a confocal microscope system.
FLASH: A re-purposable, non-invasive, diagnostic, next generation Hyperspectral Imaging System
CHQR: A new memory management system with a dynamic database.
Track and Trace that is approved and adopted by US Government, Defense Logistics Agency (DLA)
16. MAKING SOPHISTICATED, HIGH -THROUGHPUT
MICROGRAVITY RESEARCH ACCESSIBLE
TO ALL INVESTIGATORS
www.SCORPIOV.com
Real Time COVID-19 Testing
Accurate Results Immediately
FLASH technology can significantly advance COVID-19
Testing, Track and Tracing at this critical time worldwide.
Steffen Wild | (626 367-2926 |steffen@agrosonics.com
Editor's Notes
Steffen: We are treading on THIN ICE HERE …. CAN YOU PASSWORD PROTECT THE agrosonics.com website. and Can u mount this video.. it plays here
Steffen… this page wasn’t editable text… so I typed up the text for this page and had to loose the background image of the Globe Map.
Steffen… SAME for this page as it wasn’t editable text… so I typed up the text for this page and had to loose the background image of the Globe Map.