The patent landscape related to 3D cell technologies is very open, involving important academic applicants as well as small companies. It includes over 2,500 patent families and involves over 1,000 patent applicants.
The report provides essential patent data for 3D cell culture technologies including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents
• Granted patents near expiration.
• Relative strength of main companies IP portfolio
• 3D cell culture IP profiles of 10+ major companies with key patents, partnerships, and IP strength and strategy
Methods to improve Freedom to Operate analysisDauverC
This document discusses improving freedom to operate (FTO) analysis through comprehensive risk assessment and targeted patent searching. It provides an overview of patent filing trends, litigation statistics in key regions like the US and Europe, and a business case study on conducting an FTO analysis for a proposed fuel tank product. New semantic search technologies available in tools like PatentOptimizer can help enable more precise and recall patent searches to better inform FTO evaluations.
The document discusses freedom to operate (FTO) in intellectual property. It defines FTO as the ability to capitalize on an invention without challenges from other patent holders. The author cautions that during research and development, one must carefully record all materials, tools, and processes used and identify any existing exclusivity claims. Several strategies are discussed for circumventing or removing obstacles to FTO, such as paying to license a patent, exchanging technologies, inventing around a patent, or sharing patents or confidential information. The document provides an example of FTO considerations for biopharmaceutical research and development and discusses a technology using deuterium to extend drug effects. It concludes with discussing concepts and strategies for searching patents.
SKGF_Presentation_Antibodies, Patents and Freedom to Operate: The Monoclonal ...SterneKessler
This document discusses the importance of freedom to operate (FTO) analysis for companies developing therapeutic antibody technologies. It notes that the patent landscape for antibody technologies has become more complex, making a thorough FTO analysis essential to avoid infringing the patents of others. The document outlines key concepts of patentability and dominance, describes strategies for clearing FTO such as design-arounds, invalidity arguments, and licensing. It provides examples of important patents in antibody humanization, expression, display, and other areas, as well as emerging antibody technologies that may create new patenting opportunities and risks.
International Patenting: Paris Convention, Patent Cooperation Treaty, and Pat...Patterson Thuente IP
India's place in the patent world.
International patenting basics.
Patent Cooperation Treaty (PCT) overview.
Patent Prosecution Highway (PPH) benefits.
Freedom to operate: Biosciences innovations and intellectual property manage...ILRI
The document discusses intellectual property (IP) issues related to agricultural biotechnology research and development. It outlines the major forms of IP protection such as patents, plant breeder's rights, material transfer agreements, and trade secrets. It emphasizes the importance of conducting freedom to operate analyses to identify any existing IP that may restrict the use of technologies in R&D. Proper IP management including licenses, cross-licensing, and strategic partnerships can enable access to proprietary technologies needed for agricultural innovation.
Chromatography and Mass Spectrometry at the CSIR South AfricaBrendon Naicker
An introduction to the Council for Scientific and Industrial Research (CSIR) South Africa and a description of current chromatography and mass spectrometry activities and services offered. The latter part of the presentation focuses on the vital role that chromatography and mass spectrometry plays in tuberculosis research.
3D cell culture allows for more natural cell-to-cell attachments and communication through gap junctions compared to 2D culture. This results in greater tissue differentiation and resistance to chemotherapeutic drugs and radiation in 3D culture, whereas cells in 2D culture are more easily killed. A lab-on-a-chip integrates multiple laboratory functions onto a single microfluidic chip and offers advantages like lower reagent costs, portability, faster reactions, and lower fabrication costs compared to traditional labs.
3D In Vitro Models for Drug Efficiency TestingTiffany Ho
3D cell cultures more accurately model the in vivo microenvironment compared to traditional 2D cultures. 3D cultures form cell aggregates or spheroids, mimic tumor development, and allow for more effective drug testing compared to flat monolayers. Emerging technologies like organ-on-chip microfluidic devices and 3D printing have the potential to further advance 3D cell culture models by replicating the functions of human organs and embedding living cells in scaffolds.
Methods to improve Freedom to Operate analysisDauverC
This document discusses improving freedom to operate (FTO) analysis through comprehensive risk assessment and targeted patent searching. It provides an overview of patent filing trends, litigation statistics in key regions like the US and Europe, and a business case study on conducting an FTO analysis for a proposed fuel tank product. New semantic search technologies available in tools like PatentOptimizer can help enable more precise and recall patent searches to better inform FTO evaluations.
The document discusses freedom to operate (FTO) in intellectual property. It defines FTO as the ability to capitalize on an invention without challenges from other patent holders. The author cautions that during research and development, one must carefully record all materials, tools, and processes used and identify any existing exclusivity claims. Several strategies are discussed for circumventing or removing obstacles to FTO, such as paying to license a patent, exchanging technologies, inventing around a patent, or sharing patents or confidential information. The document provides an example of FTO considerations for biopharmaceutical research and development and discusses a technology using deuterium to extend drug effects. It concludes with discussing concepts and strategies for searching patents.
SKGF_Presentation_Antibodies, Patents and Freedom to Operate: The Monoclonal ...SterneKessler
This document discusses the importance of freedom to operate (FTO) analysis for companies developing therapeutic antibody technologies. It notes that the patent landscape for antibody technologies has become more complex, making a thorough FTO analysis essential to avoid infringing the patents of others. The document outlines key concepts of patentability and dominance, describes strategies for clearing FTO such as design-arounds, invalidity arguments, and licensing. It provides examples of important patents in antibody humanization, expression, display, and other areas, as well as emerging antibody technologies that may create new patenting opportunities and risks.
International Patenting: Paris Convention, Patent Cooperation Treaty, and Pat...Patterson Thuente IP
India's place in the patent world.
International patenting basics.
Patent Cooperation Treaty (PCT) overview.
Patent Prosecution Highway (PPH) benefits.
Freedom to operate: Biosciences innovations and intellectual property manage...ILRI
The document discusses intellectual property (IP) issues related to agricultural biotechnology research and development. It outlines the major forms of IP protection such as patents, plant breeder's rights, material transfer agreements, and trade secrets. It emphasizes the importance of conducting freedom to operate analyses to identify any existing IP that may restrict the use of technologies in R&D. Proper IP management including licenses, cross-licensing, and strategic partnerships can enable access to proprietary technologies needed for agricultural innovation.
Chromatography and Mass Spectrometry at the CSIR South AfricaBrendon Naicker
An introduction to the Council for Scientific and Industrial Research (CSIR) South Africa and a description of current chromatography and mass spectrometry activities and services offered. The latter part of the presentation focuses on the vital role that chromatography and mass spectrometry plays in tuberculosis research.
3D cell culture allows for more natural cell-to-cell attachments and communication through gap junctions compared to 2D culture. This results in greater tissue differentiation and resistance to chemotherapeutic drugs and radiation in 3D culture, whereas cells in 2D culture are more easily killed. A lab-on-a-chip integrates multiple laboratory functions onto a single microfluidic chip and offers advantages like lower reagent costs, portability, faster reactions, and lower fabrication costs compared to traditional labs.
3D In Vitro Models for Drug Efficiency TestingTiffany Ho
3D cell cultures more accurately model the in vivo microenvironment compared to traditional 2D cultures. 3D cultures form cell aggregates or spheroids, mimic tumor development, and allow for more effective drug testing compared to flat monolayers. Emerging technologies like organ-on-chip microfluidic devices and 3D printing have the potential to further advance 3D cell culture models by replicating the functions of human organs and embedding living cells in scaffolds.
Three key points are summarized:
1. Three-dimensional cell cultures provide a more natural environment for cells compared to traditional 2D cultures, allowing cells to behave more like they do in vivo.
2. 3D cell culture technology is used for applications like tissue engineering, drug discovery, and analysis of cell biology. It involves engineering scaffolds and growth factors to direct cell differentiation.
3. Mathematical modeling is important for understanding the complex biological and physical factors influencing 3D cell cultures, but optimization of cultures remains an ongoing area of research due to the large number of tunable parameters.
This document provides an overview of 3D cell culture technologies. It discusses the limitations of traditional 2D cell culture models and how 3D culture systems better mimic the in vivo cellular environment. The core technology presented is the 3D Insert platform, which utilizes a patented polymer deposition process to create customizable 3D scaffolds of varying fiber diameters, spacings, and geometries for cell culture applications.
3D cell culture techniques for the tumor modelsDurgesh Jha
The document discusses 3D cell culture techniques for developing in vitro tumor models. It begins with an introduction to the advantages of 3D culture over 2D culture in mimicking the complex tumor microenvironment. Various 3D culture techniques are described, including spontaneous aggregation, liquid overlay, hanging drop method, and scaffold-based cultures. The mechanisms of spheroid formation and applications of 3D tumor models in cancer research are also summarized.
This document discusses the use of organoid cultures in cancer research. It begins with an overview of what organoids are and provides a simple definition of organoids as miniature organs grown in vitro. The document then discusses how three-dimensional culture techniques have enabled the real-time study of mammalian tissues by allowing independent manipulation of genetic and microenvironmental factors. Examples are provided of different cellular inputs used in 3D cultures as well as different culture formats. The roles of 3D cultures in advancing cancer therapeutics through predictive and prognostic testing of preclinical treatments are also summarized.
3D liver microtissues are spheroids of hepatocyte cells that resemble liver tissue morphology and functionality. They maintain liver functions for over 21 days, allowing chronic toxicity studies. The microtissues are supplied ready-for-use in 96-well plates, eliminating cell culture steps. Compared to 2D cultures, the 3D microtissues better predict toxic effects and are suitable for high-throughput screening.
Cancer is characterized by uncontrolled cell growth and can affect many parts of the body. In New Zealand, cancer is a leading cause of death, with the most common cancers being lung, prostate, colorectal, breast and lung cancers. Maori have higher mortality rates from cancer compared to non-Maori. Cancers are caused by defects in cellular proliferation and differentiation as well as environmental and genetic factors. Cancer cells spread via metastasis which can occur early for some cancers or later for others. The immune system plays a role in detecting cancer cells but cancers can evade immune response.
This document discusses stem cell culture and provides definitions, classifications, and methods for culturing different types of stem cells. It summarizes the history of stem cell research from 1981 to present. It describes embryonic stem cells, adult stem cells including bone marrow and umbilical cord stem cells. Methods are outlined for isolating and culturing stem cells from bone marrow and umbilical cord. Advantages and disadvantages of different stem cell sources are compared.
KEY FEATURES OF THE REPORT
• IP trends including time evolution of patent publications and patent filings countries
• Current legal status of patents (granted, pending application, abandoned, expired)
• Main patent assignees (ranking, time evolution, geographical coverage) • Joint developments and IP collaboration network of main patent assignees
• Profile of 5 key players (Samsung, Toshiba, Micron Technology, SK Hynix, Intel), including:
- Technology and market data for TSV stacked memory
- Key patents
- Cross link analysis between teardown analysis, process flow and patents
- Technical challenges and relevant solutions found in the patents
- Patent litigations (ELM 3DS vs SK Hynix/Micron/Samsung)
• Excel database with all patents analyzed for the 5 key players, including technology segmentation
Non invasive Glucose Patent Landscape sampleKnowmade
The report provides essential patent data for non-invasive glucose monitoring including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents
• Granted patents near expiration
• Relative strength of main companies IP portfolio
• Non-invasive glucose monitoring IP profiles of 15 major companies with key patents, partnerships, and IP strength and strategy
The report also provides an extensive Excel database with all patents analyzed in the study
KEY FEATURES OF THE REPORT
• IP trends including time evolutions and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents and granted patents near expiration
• Relative strength of main companies’ IP portfolios
• Matrix showing patent applicants and their patented technologies
• Segmentation of patents by
- Technology (primary and secondary batteries w/o lithium)
- Design (micro-batteries, solid thin film, flexible, 3D …)
- Components/materials (anode, cathode, electrolyte, barrier layer ...)
- Manufacturing method (CVD, ALD, PVD, sputtering, electrodeposition …)
- Claimed invention (method, product, apparatus)
• Microbattery IP profiles of 10 major companies, with key patents, technological issues, partnerships, IP strength, IP strategy and latest market news
• Excel database with all patents analyzed in the report (3000+ patents), including technology segmentation
To this date, fingerprint sensing technology is the most reliable and widespread biometric technology and fingerprint sensors are well developed. This patent landscape focuses on fingerprint sensors using capacitive sensing technology. The domain of capacitive fingerprint sensors is closely linked to the development of electronic devices, especially smartphones and the like, and the growing demand for security. Capacitive fingerprint sensors of a new generation have been incorporated in the most recent smartphones of companies like Apple or Samsung. The capacitive fingerprint sensing technologies involve more than 100 different applicants, mainly semiconductor and electronics companies. The main IP holders in the domain are Seiko Epson, AuthenTec, Sony and STMicroelectronics. The pioneer patents on capacitive fingerprint sensing technology are no longer in force and more than 200 granted patents are expected to expire by 2020. However, the number of new patent publications is increasing again since 2012, underlying a new enthusiasm for capacitive fingerprint sensors.
KEY FEATURES OF THE REPORT
The report provides essential patent data for fingerprint sensors of the capacitive type including:
- Time evolution of patent publications and countries of patent filings.
- Current legal status of patents.
-Ranking of main patent applicants.
- Joint developments and IP collaboration network of main patent applicants.
- Key patents.
- Granted patents near expiration.
- Relative strength of main companies IP portfolio.
- Overview of patent litigations
- Capacitive fingerprint sensor IP profiles of 15+ major companies with key patents, partnerships, and IP strength and strategy.
- The report also provides an extensive Excel database with all patents analyzed in the study.
OBJECTIVE OF THE REPORT
- Understand the IP landscape for capacitive fingerprint sensors.
- Identify key patents.
- Understand trends in capacitive fingerprint sensors IP.
- Identify the major players in capacitive fingerprint sensors IP and the relative strength of their patent portfolio.
- Identify new players in capacitive fingerprint sensors IP.
- Identify IP collaboration networks between key players.
- Identify main patent litigations.
This document provides an analysis of Honeywell's microbolometer patent portfolio. It includes information on the technology overview, market forecast, intellectual property overview including statistics on patent publications, granted patents and applications by country and over time, main technical issues addressed, inventors, most cited patent families, and competitive intellectual property landscape. The analysis also discusses Honeywell's key patents, strengths and weaknesses, and provides conclusions on Honeywell's leadership position in microbolometer technology.
Photoacoustic imaging technologies in the biomedical domain are in full growth from an IP point of view, and have began to move in the clinical field. If Japanese companies Canon and Fujifilm are the main IP holder, the market is held by US actors : ENDRA Life Sciences, VisualSonics, Seno Medical Instruments, OptoSonics or TomoWave Laboratories.
This patent landscape focuses on photoacoustic imaging in biomedicine. Photoacoustic imaging is a safe, non-invasive, non-ionizing imaging technique. The technique offers several advantages and represents a great alternative to traditional medical imaging approaches. The innovation of photoacoustic imaging for biomedical purposes is mainly driven by the need to enhance the efficiency of the detection and diagnostic of cancer.
KEY FEATURES OF THE REPORT
The report provides essential patent data for biomedical photoacoustic imaging including:
Time evolution of patent publications and countries of patent filings.
Current legal status of patents.
Ranking of main patent applicants.
Joint developments and IP collaboration network of main patent applicants.
Key patents.
Granted patents near expiration.
Relative strength of main companies IP portfolio.
Photoacoustic imaging IP profiles of 15 major companies with key patents, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the study.
The report provides essential patent data for ReRAM and Memristor including:
• Time evolution of patent publications and countries of patent filings.
• Ranking of main patent applicants.
• Joint developments and IP collaboration network of main patent applicants.
• Key patents.
• Granted patents near expiration.
• Relative strength of main companies IP portfolio.
• Matrix applicants/patented technology for more than 15 companies.
• The “Resistive Memory IP” profiles of 15+ major companies is presented, with key patents, recent patents, technological issues, partnerships and last market news.
The report also provides an extensive Excel database with all patents analyzed in the study.
Microfluidic technologies for diagnostic applications - SampleKnowmade
The report provides essential patent data for microfluidic technologies for diagnostic applications including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network
• Key patents and granted patents near expiration
• Relative strength of main companies IP portfolio
• IP profiles of 15 major companies
Miniaturized Gas Sensors Patent Landscape 2016 SampleKnowmade
KEY FEATURES OF THE REPORT
• IP trends including time evolutions and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents and granted patents near expiration
• Relative strength of main companies’ IP portfolios
• Matrix showing patent applicants and their patented technologies
• Segmentation of patents by gas sensor technology: Electrical detector (FET, CMOS, MOS/MIS), chemical sensor, optical detector, acoustic detector, gas chromatography, electro-chemical gas sensor, thermal gas sensor, gas sensor with CNTs/Graphene, electro-mechanical gas sensors
• IP position vs. market positions for each key players
• MEMS gas sensor IP profiles of 19 key companies, with key patents, technological issues, partnerships, IP strength, IP strategy and latest market news
• Excel database with all patents analyzed in the report (2000+ patents), including technology segmentation
This document provides a summary of an emerging MEMS patent investigation report by Knowmade and Yole Développement. The report analyzes over 1,300 patent families related to 7 types of emerging MEMS technologies: AOC MEMS, Autofocus, Chemical Sensors, Micro-Speakers, Scanning Micro-Mirrors, Si Microfluidics, and Ultrasonic MEMS. For each technology, the report provides an overview of the market and key patents, including rankings of major patent applicants and analysis of their patent portfolios and networks. It also includes timelines of patent publications and key findings on the leading IP holders for each emerging MEMS technology.
Capsule Endoscopy Patent Landscape 2014 Sample
Olympus and Given Imaging are leading intellectual property in the capsule endoscopy industry, but for how long?
KEY FEATURES OF THE REPORT
The report provides essential patent data for capsule endoscopy. It identifies more than 30 major holders of capsule endoscopy related intellectual property. It provides in-depth IP analysis and industrial key players including:
-Time evolution of patent publications and countries of patent filings.
-Current legal status of patents.
-Ranking of main patent applicants.
-Joint developments and IP collaboration network of main patent applicants.
-Key patents.
-Granted patents near expiration.
-Relative strength of main companies IP portfolio.
-Overview of patent litigations.
-Matrix applicants/technology issues for more than 15+ companies.
The “capsule endoscopy IP” profiles of 15+ major companies is presented, with key patents, technological issues, litigations, licenses, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the report.
OBJECTIVE OF THE REPORT
•Understand the IP landscape for capsule endoscopy.
•Identify key patents.
•Understand trends in capsule endoscopy IP.
•Identify the major players in capsule endoscopy IP and the relative strength of their patent portfolio.
•Identify new players in capsule endoscopy IP.
•Identify IP collaboration networks between key players (industrial and academics).
•Identify main patent litigations.
This document provides a summary of a patent landscape analysis report on nanopore sequencing technologies. The analysis found that patent publications on nanopore sequencing have significantly increased from 2008-2013, following early work proving the concept. While industrial players are increasingly active, Harvard University's portfolio remains the strongest, followed by Illumina, Agilent, University of California, and Roche. Oxford Nanopore Technologies' portfolio is not the strongest but the company benefits from university partnerships. Several microelectronics companies have also recently filed solid-state nanopore patents. Most major assignees have an international IP strategy with a strong US and European presence. The report provides a detailed analysis of patents segmented by nanopore technology and application, as well as profiles of key
Capsule Endoscopy Patent Landscape Flyer 2014
Olympus and Given Imaging are leading intellectual property in the capsule endoscopy industry, but for how long?
KEY FEATURES OF THE REPORT
The report provides essential patent data for capsule endoscopy. It identifies more than 30 major holders of capsule endoscopy related intellectual property. It provides in-depth IP analysis and industrial key players including:
-Time evolution of patent publications and countries of patent filings.
-Current legal status of patents.
-Ranking of main patent applicants.
-Joint developments and IP collaboration network of main patent applicants.
-Key patents.
-Granted patents near expiration.
-Relative strength of main companies IP portfolio.
-Overview of patent litigations.
-Matrix applicants/technology issues for more than 15+ companies.
The “capsule endoscopy IP” profiles of 15+ major companies is presented, with key patents, technological issues, litigations, licenses, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the report.
OBJECTIVE OF THE REPORT
•Understand the IP landscape for capsule endoscopy.
•Identify key patents.
•Understand trends in capsule endoscopy IP.
•Identify the major players in capsule
endoscopy IP and the relative strength of
their patent portfolio.
•Identify new players in capsule endoscopy IP.
•Identify IP collaboration networks between key players (industrial and academics).
•Identify main patent litigations.
Three key points are summarized:
1. Three-dimensional cell cultures provide a more natural environment for cells compared to traditional 2D cultures, allowing cells to behave more like they do in vivo.
2. 3D cell culture technology is used for applications like tissue engineering, drug discovery, and analysis of cell biology. It involves engineering scaffolds and growth factors to direct cell differentiation.
3. Mathematical modeling is important for understanding the complex biological and physical factors influencing 3D cell cultures, but optimization of cultures remains an ongoing area of research due to the large number of tunable parameters.
This document provides an overview of 3D cell culture technologies. It discusses the limitations of traditional 2D cell culture models and how 3D culture systems better mimic the in vivo cellular environment. The core technology presented is the 3D Insert platform, which utilizes a patented polymer deposition process to create customizable 3D scaffolds of varying fiber diameters, spacings, and geometries for cell culture applications.
3D cell culture techniques for the tumor modelsDurgesh Jha
The document discusses 3D cell culture techniques for developing in vitro tumor models. It begins with an introduction to the advantages of 3D culture over 2D culture in mimicking the complex tumor microenvironment. Various 3D culture techniques are described, including spontaneous aggregation, liquid overlay, hanging drop method, and scaffold-based cultures. The mechanisms of spheroid formation and applications of 3D tumor models in cancer research are also summarized.
This document discusses the use of organoid cultures in cancer research. It begins with an overview of what organoids are and provides a simple definition of organoids as miniature organs grown in vitro. The document then discusses how three-dimensional culture techniques have enabled the real-time study of mammalian tissues by allowing independent manipulation of genetic and microenvironmental factors. Examples are provided of different cellular inputs used in 3D cultures as well as different culture formats. The roles of 3D cultures in advancing cancer therapeutics through predictive and prognostic testing of preclinical treatments are also summarized.
3D liver microtissues are spheroids of hepatocyte cells that resemble liver tissue morphology and functionality. They maintain liver functions for over 21 days, allowing chronic toxicity studies. The microtissues are supplied ready-for-use in 96-well plates, eliminating cell culture steps. Compared to 2D cultures, the 3D microtissues better predict toxic effects and are suitable for high-throughput screening.
Cancer is characterized by uncontrolled cell growth and can affect many parts of the body. In New Zealand, cancer is a leading cause of death, with the most common cancers being lung, prostate, colorectal, breast and lung cancers. Maori have higher mortality rates from cancer compared to non-Maori. Cancers are caused by defects in cellular proliferation and differentiation as well as environmental and genetic factors. Cancer cells spread via metastasis which can occur early for some cancers or later for others. The immune system plays a role in detecting cancer cells but cancers can evade immune response.
This document discusses stem cell culture and provides definitions, classifications, and methods for culturing different types of stem cells. It summarizes the history of stem cell research from 1981 to present. It describes embryonic stem cells, adult stem cells including bone marrow and umbilical cord stem cells. Methods are outlined for isolating and culturing stem cells from bone marrow and umbilical cord. Advantages and disadvantages of different stem cell sources are compared.
KEY FEATURES OF THE REPORT
• IP trends including time evolution of patent publications and patent filings countries
• Current legal status of patents (granted, pending application, abandoned, expired)
• Main patent assignees (ranking, time evolution, geographical coverage) • Joint developments and IP collaboration network of main patent assignees
• Profile of 5 key players (Samsung, Toshiba, Micron Technology, SK Hynix, Intel), including:
- Technology and market data for TSV stacked memory
- Key patents
- Cross link analysis between teardown analysis, process flow and patents
- Technical challenges and relevant solutions found in the patents
- Patent litigations (ELM 3DS vs SK Hynix/Micron/Samsung)
• Excel database with all patents analyzed for the 5 key players, including technology segmentation
Non invasive Glucose Patent Landscape sampleKnowmade
The report provides essential patent data for non-invasive glucose monitoring including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents
• Granted patents near expiration
• Relative strength of main companies IP portfolio
• Non-invasive glucose monitoring IP profiles of 15 major companies with key patents, partnerships, and IP strength and strategy
The report also provides an extensive Excel database with all patents analyzed in the study
KEY FEATURES OF THE REPORT
• IP trends including time evolutions and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents and granted patents near expiration
• Relative strength of main companies’ IP portfolios
• Matrix showing patent applicants and their patented technologies
• Segmentation of patents by
- Technology (primary and secondary batteries w/o lithium)
- Design (micro-batteries, solid thin film, flexible, 3D …)
- Components/materials (anode, cathode, electrolyte, barrier layer ...)
- Manufacturing method (CVD, ALD, PVD, sputtering, electrodeposition …)
- Claimed invention (method, product, apparatus)
• Microbattery IP profiles of 10 major companies, with key patents, technological issues, partnerships, IP strength, IP strategy and latest market news
• Excel database with all patents analyzed in the report (3000+ patents), including technology segmentation
To this date, fingerprint sensing technology is the most reliable and widespread biometric technology and fingerprint sensors are well developed. This patent landscape focuses on fingerprint sensors using capacitive sensing technology. The domain of capacitive fingerprint sensors is closely linked to the development of electronic devices, especially smartphones and the like, and the growing demand for security. Capacitive fingerprint sensors of a new generation have been incorporated in the most recent smartphones of companies like Apple or Samsung. The capacitive fingerprint sensing technologies involve more than 100 different applicants, mainly semiconductor and electronics companies. The main IP holders in the domain are Seiko Epson, AuthenTec, Sony and STMicroelectronics. The pioneer patents on capacitive fingerprint sensing technology are no longer in force and more than 200 granted patents are expected to expire by 2020. However, the number of new patent publications is increasing again since 2012, underlying a new enthusiasm for capacitive fingerprint sensors.
KEY FEATURES OF THE REPORT
The report provides essential patent data for fingerprint sensors of the capacitive type including:
- Time evolution of patent publications and countries of patent filings.
- Current legal status of patents.
-Ranking of main patent applicants.
- Joint developments and IP collaboration network of main patent applicants.
- Key patents.
- Granted patents near expiration.
- Relative strength of main companies IP portfolio.
- Overview of patent litigations
- Capacitive fingerprint sensor IP profiles of 15+ major companies with key patents, partnerships, and IP strength and strategy.
- The report also provides an extensive Excel database with all patents analyzed in the study.
OBJECTIVE OF THE REPORT
- Understand the IP landscape for capacitive fingerprint sensors.
- Identify key patents.
- Understand trends in capacitive fingerprint sensors IP.
- Identify the major players in capacitive fingerprint sensors IP and the relative strength of their patent portfolio.
- Identify new players in capacitive fingerprint sensors IP.
- Identify IP collaboration networks between key players.
- Identify main patent litigations.
This document provides an analysis of Honeywell's microbolometer patent portfolio. It includes information on the technology overview, market forecast, intellectual property overview including statistics on patent publications, granted patents and applications by country and over time, main technical issues addressed, inventors, most cited patent families, and competitive intellectual property landscape. The analysis also discusses Honeywell's key patents, strengths and weaknesses, and provides conclusions on Honeywell's leadership position in microbolometer technology.
Photoacoustic imaging technologies in the biomedical domain are in full growth from an IP point of view, and have began to move in the clinical field. If Japanese companies Canon and Fujifilm are the main IP holder, the market is held by US actors : ENDRA Life Sciences, VisualSonics, Seno Medical Instruments, OptoSonics or TomoWave Laboratories.
This patent landscape focuses on photoacoustic imaging in biomedicine. Photoacoustic imaging is a safe, non-invasive, non-ionizing imaging technique. The technique offers several advantages and represents a great alternative to traditional medical imaging approaches. The innovation of photoacoustic imaging for biomedical purposes is mainly driven by the need to enhance the efficiency of the detection and diagnostic of cancer.
KEY FEATURES OF THE REPORT
The report provides essential patent data for biomedical photoacoustic imaging including:
Time evolution of patent publications and countries of patent filings.
Current legal status of patents.
Ranking of main patent applicants.
Joint developments and IP collaboration network of main patent applicants.
Key patents.
Granted patents near expiration.
Relative strength of main companies IP portfolio.
Photoacoustic imaging IP profiles of 15 major companies with key patents, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the study.
The report provides essential patent data for ReRAM and Memristor including:
• Time evolution of patent publications and countries of patent filings.
• Ranking of main patent applicants.
• Joint developments and IP collaboration network of main patent applicants.
• Key patents.
• Granted patents near expiration.
• Relative strength of main companies IP portfolio.
• Matrix applicants/patented technology for more than 15 companies.
• The “Resistive Memory IP” profiles of 15+ major companies is presented, with key patents, recent patents, technological issues, partnerships and last market news.
The report also provides an extensive Excel database with all patents analyzed in the study.
Microfluidic technologies for diagnostic applications - SampleKnowmade
The report provides essential patent data for microfluidic technologies for diagnostic applications including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network
• Key patents and granted patents near expiration
• Relative strength of main companies IP portfolio
• IP profiles of 15 major companies
Miniaturized Gas Sensors Patent Landscape 2016 SampleKnowmade
KEY FEATURES OF THE REPORT
• IP trends including time evolutions and countries of patent filings
• Current legal status of patents
• Ranking of main patent applicants
• Joint developments and IP collaboration network of main patent applicants
• Key patents and granted patents near expiration
• Relative strength of main companies’ IP portfolios
• Matrix showing patent applicants and their patented technologies
• Segmentation of patents by gas sensor technology: Electrical detector (FET, CMOS, MOS/MIS), chemical sensor, optical detector, acoustic detector, gas chromatography, electro-chemical gas sensor, thermal gas sensor, gas sensor with CNTs/Graphene, electro-mechanical gas sensors
• IP position vs. market positions for each key players
• MEMS gas sensor IP profiles of 19 key companies, with key patents, technological issues, partnerships, IP strength, IP strategy and latest market news
• Excel database with all patents analyzed in the report (2000+ patents), including technology segmentation
This document provides a summary of an emerging MEMS patent investigation report by Knowmade and Yole Développement. The report analyzes over 1,300 patent families related to 7 types of emerging MEMS technologies: AOC MEMS, Autofocus, Chemical Sensors, Micro-Speakers, Scanning Micro-Mirrors, Si Microfluidics, and Ultrasonic MEMS. For each technology, the report provides an overview of the market and key patents, including rankings of major patent applicants and analysis of their patent portfolios and networks. It also includes timelines of patent publications and key findings on the leading IP holders for each emerging MEMS technology.
Capsule Endoscopy Patent Landscape 2014 Sample
Olympus and Given Imaging are leading intellectual property in the capsule endoscopy industry, but for how long?
KEY FEATURES OF THE REPORT
The report provides essential patent data for capsule endoscopy. It identifies more than 30 major holders of capsule endoscopy related intellectual property. It provides in-depth IP analysis and industrial key players including:
-Time evolution of patent publications and countries of patent filings.
-Current legal status of patents.
-Ranking of main patent applicants.
-Joint developments and IP collaboration network of main patent applicants.
-Key patents.
-Granted patents near expiration.
-Relative strength of main companies IP portfolio.
-Overview of patent litigations.
-Matrix applicants/technology issues for more than 15+ companies.
The “capsule endoscopy IP” profiles of 15+ major companies is presented, with key patents, technological issues, litigations, licenses, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the report.
OBJECTIVE OF THE REPORT
•Understand the IP landscape for capsule endoscopy.
•Identify key patents.
•Understand trends in capsule endoscopy IP.
•Identify the major players in capsule endoscopy IP and the relative strength of their patent portfolio.
•Identify new players in capsule endoscopy IP.
•Identify IP collaboration networks between key players (industrial and academics).
•Identify main patent litigations.
This document provides a summary of a patent landscape analysis report on nanopore sequencing technologies. The analysis found that patent publications on nanopore sequencing have significantly increased from 2008-2013, following early work proving the concept. While industrial players are increasingly active, Harvard University's portfolio remains the strongest, followed by Illumina, Agilent, University of California, and Roche. Oxford Nanopore Technologies' portfolio is not the strongest but the company benefits from university partnerships. Several microelectronics companies have also recently filed solid-state nanopore patents. Most major assignees have an international IP strategy with a strong US and European presence. The report provides a detailed analysis of patents segmented by nanopore technology and application, as well as profiles of key
Capsule Endoscopy Patent Landscape Flyer 2014
Olympus and Given Imaging are leading intellectual property in the capsule endoscopy industry, but for how long?
KEY FEATURES OF THE REPORT
The report provides essential patent data for capsule endoscopy. It identifies more than 30 major holders of capsule endoscopy related intellectual property. It provides in-depth IP analysis and industrial key players including:
-Time evolution of patent publications and countries of patent filings.
-Current legal status of patents.
-Ranking of main patent applicants.
-Joint developments and IP collaboration network of main patent applicants.
-Key patents.
-Granted patents near expiration.
-Relative strength of main companies IP portfolio.
-Overview of patent litigations.
-Matrix applicants/technology issues for more than 15+ companies.
The “capsule endoscopy IP” profiles of 15+ major companies is presented, with key patents, technological issues, litigations, licenses, partnerships, and IP strength and strategy.
The report also provides an extensive Excel database with all patents analyzed in the report.
OBJECTIVE OF THE REPORT
•Understand the IP landscape for capsule endoscopy.
•Identify key patents.
•Understand trends in capsule endoscopy IP.
•Identify the major players in capsule
endoscopy IP and the relative strength of
their patent portfolio.
•Identify new players in capsule endoscopy IP.
•Identify IP collaboration networks between key players (industrial and academics).
•Identify main patent litigations.
GaN Technology Top-100 IP profiles - SampleKnowmade
The field of III-N semiconductors has shown an intensive patenting activity since early 1990s, with a substantial increase during the past decade. Today, more than 76,200 patents and patent applications related to over 39,700 inventions on GaN technology have been published worldwide through November 2016. This fact is correlated with a rapid growth of the industrial activity related to GaN, mainly due to light-emitting diodes, but also to the emergence of lasers and high-power/high-frequency electronics. Moreover, the current diversification of GaN-related research activities is remarkable, ranging from advanced optical sources and single-electron devices to physical, chemical, and biological sensors, optical detectors, and energy converters. In this dynamic and large context, it is necessary to have a clear overview of main companies and research laboratories involved in this technology domain.
The report provides essential patent data for IP players related to GaN technology. It identifies 100 major patent holders involved in GaN technology, and its provides in a single slide the IP profile of each main patent holder including: time evolution of patent publications, geographic map of patenting activity, technical segments, highly cited patents, main IP competitors and IP collaborators.
Consumer Physics Inc. develops and distributes molecular sensors, marketing its product under the SCiO brand name. According to Consumer Physics, the SCiO spectrometer is the world’s first pocket size molecular sensor. The company had over 13,000 backers on Kickstarter and ended up raising over $2.7 million. Consumers can use SCiO to scan objects including fruit, vegetables, dairy food, meat, fish and medications. They can even scan their own bodies to measure total body fat. The SCiO app also includes a DIY applet that allows anyone to scan materials of their choosing and analyze the difference between their molecular identities. Consumer Physics has won numerous awards including an ‘Enabled by Optics’ award from OSA, The Optical Society, in 2016, the World Economic Forum Technology Pioneers Award 2015, the United Nations Netexplo Award 2015 and was a CES Innovation Honoree in 2016. SCiO has regularly appeared in top ‘products to watch’ lists on Forbes, CNN, and Fortune, and has been covered numerous times by the media on television, in print and online. But what technologies are behind Consumer Physics’ success and what are the main features claimed by its patents?
Commercialization Options for a set of Wireless PatentsShanmukha S. Potti
Given a portfolio of patents, this project utilizes two approaches of study – one is analysis of the portfolio as a whole and the second is specific analysis limited to individual patent assets.
This process involves mining for crown jewels in a portfolio, using Patent Analytics.
Patent assets thus identified were mapped to a wireless value chain and an innovation value chain to determine preferred commercialization options.
The document discusses intellectual property protection in Greece and abroad. It covers the typical steps in commercializing a research invention, including evaluating commercial potential, intellectual property protection through patents or other means, licensing, and revenue generation. It provides an overview of the patenting process and requirements in Greece, as well as filing for patents in other countries or regions like Europe. The types of intellectual property protection are also summarized, along with statistics on university and corporate patenting activity.
The presentation provided an overview of several major patent databases including WIPO's PatentScope, India's EKASWA and EPIDOS-INPADOC databases, and Canada's Canadian Patents Database. These databases allow users to search millions of patent documents from around the world and provide important information for researchers, innovators and those seeking to understand intellectual property rights. Effective use of the databases requires understanding how to conduct simple, advanced, equivalent and other specialized searches across different fields.
Next Generation Sequencing & DNA Synthesis: Technology, Consumables Manufactu...Yole Developpement
This document provides a summary of a report by Yole Développement on next-generation DNA sequencing and DNA synthesis technologies. The report provides an overview of the market and technology landscapes, including descriptions of established and emerging sequencing technologies. It also analyzes the supply chain and provides market data, forecasts, and analysis. The report finds that the number of sequencing instruments is expected to more than double by 2024, driving growth in the number of sequencing consumables from 1.28 million units in 2018 to 4.19 million units in 2024. This rapid adoption represents significant opportunities for companies along the semiconductor supply chain to provide enabling technologies for sequencing consumables.
II-SDV 2016 Bob Stembridge We have all the Time in the World; a Review of ho...Dr. Haxel Consult
One of the key elements in understanding a technology sector or a competitor’s activities is to measure and detect any significant changes over time that may indicate a declining interest or a new hot emerging area.
But how do we spot the signal from the noise? What constitutes a significant change? This depends on how we measure change which in turn depends on the measure of time we use. In scientific literature, we have limited choice – publication date (but even that is changing with wide availability of electronic pre-prints). In patent literature, publication date provides a measure of when an invention is publicly disclosed, but priority date is perhaps a truer measure of when the invention was made. And is it better to look at individual dates, or use moving windows of time?
This presentation will consider these questions using a case study approach to determine the impacts and effectiveness of the different approaches.
This document discusses intellectual property rights and access and benefit-sharing regarding genetic resources. It provides the legal context of the Convention on Biological Diversity and Nagoya Protocol. There is a need for a new international instrument on biodiversity beyond national jurisdiction. The optimal system would promote research, provide legal certainty, and ensure fair sharing of benefits. The EMBRIC community could play a role by advocating for an open notification system, promoting open access, avoiding embargos, benefit sharing from commercialization, and facilitating global south collaborations.
Which companies own patents in microLED display? What are their major thrust areas and
portfolio strength?
Yole Développement has identified close to 1,500
patents filed by 125 companies and organizations
relevant to the microLED display field. Among
these are multiple startups, display makers, OEMs,
semiconductor companies, LED makers, and
research institutions.
More information on that report at http://www.i-micronews.com/reports.html
Dr. Ravi Dhar discusses the importance of freedom to operate (FTO) in intellectual property. He explains that FTO is the ability to commercialize an invention without challenges from other patent holders. He outlines different types of patent searches conducted for FTO clearance including patentability, freedom-to-operate, validity, and state-of-the-art searches. Key bottlenecks in biopharmaceutical research and development that require FTO analysis are also described. Strategies for addressing FTO obstacles like licensing, technology exchanges, and patent sharing are presented. Dr. Dhar emphasizes the importance of only using legal means to resolve any FTO issues.
3D NAND Flash Memory devices appeared on the market in 2015 with 3D V-NAND – 32L of Samsung Electronics, followed in 2016 with 3D NAND V2 – 36L of SK Hynix, 3D NAND – 48L of Toshiba/SanDisk and 3D NAND – 32L of Micron/Intel. In recent times, it happens a lot in the 3D non-volatile memory (3D NVM) field with the acquisition of SanDisk by Western Digital, The investments of Chinese government in memory, or the Intel announcement of the Intel/Micron separation for further development of 3D NAND. We witnessed these evolves in the IP landscape through the recent increase of 3D NVM-related patents filed by Chinese players (YMTC/YRST) and the numerous Samsung’s patents published the latest months in China, USA and Korea, reflecting its willing to strengthen its 3D NVM IP portfolio. Also, we observed non-practicing entities (NPEs) like Conversant IP and WiLAN are entering the landscape. The presence of such companies is a tangible sign of the market explodes, heralding future IP battles when they will assert their patents to make money.
In this report, KnowMade has thoroughly investigated the patents related to 3D non-volatile memories and draws a picture of the current patent landscape and its potential evolution. SanDisk/Western Digital, Samsung and Toshiba are leading the 3D NVM patent landscape. They hold together more than 65% of the patents, Western Digital and Toshiba signed a JV extension until 2029, and Samsung and Western Digital renewed a patent cross-license agreement until 2024. On the other hand, we witness the emergence of Chinese players in the IP landscape. Patent activity related to 3D non-volatile memory (3D NVM) emerged in the 1990s with Toshiba and SanDisk. They signed Joint Venture agreement on Flash Memory in 1999. In the end 2000s, the research and development of 3D architectures appeared with IP related to BiCS (Bit Cost Scalable, SanDisk and Toshiba), TCAT (Terabit Cell Array Transistor, Samsung Electronics) and FG (Floating Gate, SK Hynix). Few years later Micron Technology developed also FG architecture, and Macronix International developed in 2015 SGVC architecture (Single Gate Vertical Channel). Since 2008, the number of patents related to 3D NVM has continuously increased, and today the 3D NVM patent landscape represents over 3,400 patent families including more than 9,400 patents. The landscape is very competitive, with several big companies and the entrance of Chinese players these last years.
Rassenfosse - IProduct database of patent products pairsinnovationoecd
The document describes a proposed database called IPRoduct that would link intellectual property (IP) data like patents to product data. This would allow researchers to study the "real impact" of innovations by observing them at the point they reach consumers. The database is being developed by collecting information companies provide online linking patents to products. An initial database includes data on 1,000 products, 3,000 patents, and 30 companies. Preliminary analysis of the data provides stylized facts and shows the database could have policy relevance by better understanding the economic impact of IP and providing new innovation indicators.
Intellectual Property Serrvices Outsourcing- India Company OverviewEPatents IP Services
EPatents is a IP Services firm which provides Patent and Trademark services to students,individual inventors, entrepreneurs, SMEs and other law firms in India and US.
This presentation is the overview of services offered by EPatents
Patent search from product specification finalIIITA
This document outlines a plan to develop a methodology to identify patents related to the components of a mobile phone based on its specifications. The methodology involves selecting a mobile phone brand and model, extracting specifications from the manufacturer's website, identifying keywords from the specifications, and using those keywords to search for and retrieve relevant patents. The goal is to provide patent information on mobile phone technologies to help with research and development, competitive analysis, and understanding technological advancements.
The report provides essential patent data for FLUIDIGM’s portfolio including:
• Time evolution of patent publications and countries of patent filings
• Current legal status of patents
• Citation network, IP collaboration and competitive networks
• Inventor identification
• Key patent analysis
• Patents recently expired
• Granted patents near expiration
The report also provides an extensive Excel database with all patents analyzed in the study.
Patent landscaping report wearable bio sensor on wrist-en_20160407Ray Chu
The document is a patent landscape report on wrist-worn wearable biosensor technologies. It provides an overview of trends in wearable technology development and patents in the field of wearable physiological signal detection. It analyzes global and regional patent filing trends over the past 20 years, identifies top patent applicants, and examines major technologies for detecting metrics like heart rate, blood pressure, blood sugar levels, and body composition. It also profiles the patent portfolios of leading industry players from countries like the US, Europe, Japan, China and Taiwan. The report aims to help assess patent infringement risks and develop strategic plans for companies working in this area.
- A patent is a grant of protection rights to an inventor for an invention, excluding others from using the invention for a set period of time, usually 16-20 years.
- Patents can be granted for new and useful designs, processes, machines, manufactures or compositions of matter.
- The WIPS database provides access to patents from the US, Europe, China, Japan and Korea, and allows searching across collections. It allows viewing and downloading patent images.
Similar to 3D Cell Culture technologies Patent Landscape Sample 2016 (20)
The report analyzes the patent landscape related to antenna integrated in package (AiP). Over 140 entities have filed AiP patents, with the main assignees being SJ Semiconductor, TSMC, Samsung Electro-Mechanics, Huawei, MediaTek, IBM, ASE, SPIL, NCAP, Qualcomm, and Murata. The report provides a detailed analysis of these players' patent portfolios, technologies, strategies, and key patents. It also includes an Excel database of over 1,500 analyzed AiP patents. The report finds the IP landscape is dominated by foundries/OSATs and major companies, with newcomers being Chinese firms focusing on wafer-level packaging for integrated antennas. The IP
Next generation power modules - patent landscape 2021 - sampleKnowmade
The advent of EV/HEV technology has acted as a catalyst for innovation, leading to an acceleration in applications for power module related patents since 2010. Who are the main IP players? How do they address the new challenges? Who are the new players and IP challengers taking the big opportunities arising from the emerging EV/HEV market?
Next generation power modules - patent landscape 2021- flyerKnowmade
The advent of EV/HEV technology has acted as a catalyst for innovation, leading to an acceleration in applications for power module related patents since 2010. Who are the main IP players? How do they address the new challenges? Who are the new players and IP challengers taking the big opportunities arising from the emerging EV/HEV market?
Report’s Key Features
• PDF with > 230 slides
• Excel file > 3,000 patent families
• Main IP dynamics and key trends.
• IP leaders, most active players and newcomers.
• IP portfolio strength of key players, and their technology/application focus.
• Time evolution of patents filings by company, countries, and technology.
• IP collaborations and IP transfers between key organizations.
• Insights into the status of RF GaN patented technologies, identifying trends for each technology and application.
• Extensive Excel database of over 3,000 patent families with all patent information and technology segmentation.
Cancer diagnostics startup identification 2020 sampleKnowmade
Report’s Key Features
• PDF with > 430+ slides
• Identification & mapping of the startups that recently started to work in the field of cancer diagostics.
• Identification & mapping of the startups that recently started to work in the field of cancer diagnostics.
• Segmentation by technology (Medical imaging, Software, AI-based tool, Biochemical analysis, Molecular diagnostics, Lab-on-chip, Liquid biopsy etc.)
• Description of the startups and their current stage of product development, funding rounds and subsidies.
• Presentation of all their relevant published patent families.
• Description of key people and their background.
Cancer diagnostics startup identification 2020 flyerKnowmade
Report’s Key Features
• PDF with > 430+ slides
• Identification & mapping of the startups that recently started to work in the field of cancer diagostics.
• Identification & mapping of the startups that recently started to work in the field of cancer diagnostics.
• Segmentation by technology (Medical imaging, Software, AI-based tool, Biochemical analysis, Molecular diagnostics, Lab-on-chip, Liquid biopsy etc.)
• Description of the startups and their current stage of product development, funding rounds and subsidies.
• Presentation of all their relevant published patent families.
• Description of key people and their background.
Microneedles for drug delivery patent landscape 2020 flyerKnowmade
Report’s Key Features
• PDF with > 140 slides
• Excel file > 2,450 patent families
• IP trends, including time-evolution of published patents, and countries of patent filings
• Patents’ legal status
• Ranking of main patent assignees
• Key players’ IP position and relative strength of their patent portfolios
• Summary of the IP related to applications: Cancer therapy, Cosmetic, Diabetes, Ophthalmic, Pain management and Vaccine.
• Summary of the IP related to technologies: Applicators, housing, Coated, Hollow, Porous, Soluble, Hydrogel and Solid microneedles.
• Analysis of patent oppositions (Europe) and review of key patents.
• Excel database containing all patents analyzed in the report, including applications and technologies segmentations
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
Report’s Key Features
• PDF with > 280+ slides
• Identification & mapping of the startups that recently started to work in the field of Onco-Immunotherapy.
• Segmentation by technology (Immune check point inhibitor, Adoptive cell transfer, Bispecific antibody, Vaccine etc.)
• Description of the startups and their pipeline, funding rounds and subsidies.
• Presentation of all their published patent families.
• Description of key people and their background.
Report’s Key Features
• PDF with > 280+ slides
• Identification & mapping of the startups that recently started to work in the field of Onco-Immunotherapy.
• Segmentation by technology (Immune check point inhibitor, Adoptive cell transfer, Bispecific antibody, Vaccine etc.)
• Description of the startups and their pipeline, funding rounds and subsidies.
• Presentation of all their published patent families.
• Description of key people and their background.
Report’s Key Features
• PDF with > 310+ slides
• Identification of the startups that recently started to work in the field of Microfluidics
• Mapping of the new startups
• Segmentation by technology and application
• Focused analysis of the projects aiming at Oncology, Diabetes and Neurology.
• Description of the startups and their microfluidic-related projects
• Presentation of all their published patent families.
• Description of key people and their background.
• Excel database containing all patents analyzed in the report
Report’s Key Features
• PDF with > 310+ slides
• Identification of the startups that recently started to work in the field of Microfluidics
• Mapping of the new startups
• Segmentation by technology and application
• Focused analysis of the projects aiming at Oncology, Diabetes and Neurology.
• Description of the startups and their microfluidic-related projects
• Presentation of all their published patent families.
• Description of key people and their background.
• Excel database containing all patents analyzed in the report
Report’s Key Features
• PDF with > 160 slides
• Excel file > 5,500 patents
• IP trends, including time-evolution of published patents, and countries of patent filings
• Patents’ legal status
• Ranking of main patent assignees
• Key players’ IP position and relative strength of their patent portfolios
• Summary of the IP related to the physical isolation: size, deformability, electrical charges or density.
• Summary of the IP related to the biological isolation: positive or negative enrichment.
• Summary of the IP related to the CTC detection: nucleic acid, protein or functional assay.
• Analysis of patent litigations and review of key patents.
• Excel database containing all patents analyzed in the report, including biological and physical isolation and detection segmentations
Report’s Key Features
• PDF with > 200 slides
• Excel file > 2,500 patents
• IP trends, including time-evolution of published patents, countries of patent filings, etc.
• Patent segmentation per application: Optoelectronics and Photonics, Power, RF, PV and Sensors
• Ranking of main patent assignees
• Key players’ IP position and relative strength of their patent portfolios
• Established players and new entrants
• IP profile of key players, their key patents and their recent IP activity
• Patents recently expired and patents near expiration date
• Excel database containing all patents analyzed in the report, including technology and application segmentations
Report’s Key Features
• PDF with > 270 slides
• Excel file > 9,500 patents
• IP trends, including time-evolution of published patents, countries of patent filings, etc.
• Ranking of main patent assignees
• Key players’ IP position and relative strength of their patent portfolios
• Patent segmentation:
– Vertical power device (vertical transistor, vertical diode),
– Normally-off (E-mode transistor, cascode topology),
– Integration (monolithic E/D-mode, SiP/SoC, power IC),
– GaN-on-Si,
– GaN-on-Sapphire,
– Selective area p-type doping (ion implantation, p-GaN regrowth),
– Current collapse,
– Thermal management,
– Stray inductance,
– EV/HEV,
– fast charging,
– wireless charging.
• Key patent identification and details
• IP profile of 40 key players: Infineon, Panasonic, Toshiba etc.
• Excel database containing all patents analyzed in the report, including technology and application segmentations
Report’s Key Features
• PDF with > 80 slides
• Excel file > 1,000 patents
• IP trends, including time-evolution of published patents, countries of patent filings, etc.
• Ranking of main patent assignees
• Key players’ IP position and relative strength of their patent portfolios
• Patent segmentation per application:
– CMOS image sensor (CIS)
– Memory
– MEMS
– LED
• Key patent identification and details
• IP profile of key players: Xperi, TSMC, YMTC
• Excel database containing all patents analyzed in the report, including technology and application segmentations
Solid electrolytes for lithium ion solid state batteries patent landscape 201...Knowmade
Report’s Key Features
• PDF with > 250 slides
• Excel file > 5,800 patents
• IP trends, including time-evolution of published patents, legal status, countries of patent filings, etc.
• Ranking of main patent assignees
• Patent categorization by type of electrolyte (polymer, inorganic, inorganic/polymer) and inorganic electrolyte materials (sulfide glass ceramics, Thio-LISICON, argyrodite, oxide glass ceramics, NASICON, perovskite, garnet, anti-perovskite, hydride)
• For each technical segment: IP dynamics, ranking of main patent assignees, newcomers, key IP players (leadership, blocking potential, portfolio strength), key patents, and recent development trends
• For each key IP player (100+ companies): Time-evolution of patenting activity, legal status of patents and countries of patent filings, patent segmentation by electrolyte material, IP strengths and weaknesses by electrolyte material
• Excel database containing all patents analyzed in this report, including technology and material segmentations
Report’s Key Features
• PDF >160 slides
• Excel file >18,500 patents
• IP trends, including time-evolution of published patents, countries of patent filings, etc.
• Ranking of main patent assignees
• Main technologies IP analysis:
– Temperature-compensated acoustic wave filters
– Packaging (flip-chip, wafer-level packaging
– Functions and modules (duplexers, multiplexers)
• IP players’ key patents
• Key players’ IP position and relative strength of their patent portfolios
• IP profile of key players: Murata, TDK, Taiyo Yuden, Skyworks, Qualcomm, Broadcom, Qorvo, Samsung Electro Mechanics, Akoustis, Resonant, Infineon, CETC
• Excel database containing all patents analyzed in the report, including technology and application segmentations
Artifical intelligence in medical diagnostics 2019 patent landscape sampleKnowmade
Report’s Key Features
• PDF >170 slides
• Excel file >22,600 patents
• IP trends, including time-evolution of published patents, and countries of patent filings
• Ranking of main patent assignees
• Identifications of over 90 start-up firms and IP newcomers
• Summary of the IP related to the medical exams: ECG, EEG, EMG, MRI, CT scan, PET scan, facial analysis, speech analysis, OCT, etc.
• Summary of the IP related to the clinical areas involved: Cardiology, Oncology, Diabetes, Osteology, etc.
• Key patents & main litigations analysis
• Excel database containing all patents analyzed in this report, including technology and application segmentations
The cost of acquiring information by natural selectionCarl Bergstrom
This is a short talk that I gave at the Banff International Research Station workshop on Modeling and Theory in Population Biology. The idea is to try to understand how the burden of natural selection relates to the amount of information that selection puts into the genome.
It's based on the first part of this research paper:
The cost of information acquisition by natural selection
Ryan Seamus McGee, Olivia Kosterlitz, Artem Kaznatcheev, Benjamin Kerr, Carl T. Bergstrom
bioRxiv 2022.07.02.498577; doi: https://doi.org/10.1101/2022.07.02.498577
Current Ms word generated power point presentation covers major details about the micronuclei test. It's significance and assays to conduct it. It is used to detect the micronuclei formation inside the cells of nearly every multicellular organism. It's formation takes place during chromosomal sepration at metaphase.
EWOCS-I: The catalog of X-ray sources in Westerlund 1 from the Extended Weste...Sérgio Sacani
Context. With a mass exceeding several 104 M⊙ and a rich and dense population of massive stars, supermassive young star clusters
represent the most massive star-forming environment that is dominated by the feedback from massive stars and gravitational interactions
among stars.
Aims. In this paper we present the Extended Westerlund 1 and 2 Open Clusters Survey (EWOCS) project, which aims to investigate
the influence of the starburst environment on the formation of stars and planets, and on the evolution of both low and high mass stars.
The primary targets of this project are Westerlund 1 and 2, the closest supermassive star clusters to the Sun.
Methods. The project is based primarily on recent observations conducted with the Chandra and JWST observatories. Specifically,
the Chandra survey of Westerlund 1 consists of 36 new ACIS-I observations, nearly co-pointed, for a total exposure time of 1 Msec.
Additionally, we included 8 archival Chandra/ACIS-S observations. This paper presents the resulting catalog of X-ray sources within
and around Westerlund 1. Sources were detected by combining various existing methods, and photon extraction and source validation
were carried out using the ACIS-Extract software.
Results. The EWOCS X-ray catalog comprises 5963 validated sources out of the 9420 initially provided to ACIS-Extract, reaching a
photon flux threshold of approximately 2 × 10−8 photons cm−2
s
−1
. The X-ray sources exhibit a highly concentrated spatial distribution,
with 1075 sources located within the central 1 arcmin. We have successfully detected X-ray emissions from 126 out of the 166 known
massive stars of the cluster, and we have collected over 71 000 photons from the magnetar CXO J164710.20-455217.
The debris of the ‘last major merger’ is dynamically youngSérgio Sacani
The Milky Way’s (MW) inner stellar halo contains an [Fe/H]-rich component with highly eccentric orbits, often referred to as the
‘last major merger.’ Hypotheses for the origin of this component include Gaia-Sausage/Enceladus (GSE), where the progenitor
collided with the MW proto-disc 8–11 Gyr ago, and the Virgo Radial Merger (VRM), where the progenitor collided with the
MW disc within the last 3 Gyr. These two scenarios make different predictions about observable structure in local phase space,
because the morphology of debris depends on how long it has had to phase mix. The recently identified phase-space folds in Gaia
DR3 have positive caustic velocities, making them fundamentally different than the phase-mixed chevrons found in simulations
at late times. Roughly 20 per cent of the stars in the prograde local stellar halo are associated with the observed caustics. Based
on a simple phase-mixing model, the observed number of caustics are consistent with a merger that occurred 1–2 Gyr ago.
We also compare the observed phase-space distribution to FIRE-2 Latte simulations of GSE-like mergers, using a quantitative
measurement of phase mixing (2D causticality). The observed local phase-space distribution best matches the simulated data
1–2 Gyr after collision, and certainly not later than 3 Gyr. This is further evidence that the progenitor of the ‘last major merger’
did not collide with the MW proto-disc at early times, as is thought for the GSE, but instead collided with the MW disc within
the last few Gyr, consistent with the body of work surrounding the VRM.
The use of Nauplii and metanauplii artemia in aquaculture (brine shrimp).pptxMAGOTI ERNEST
Although Artemia has been known to man for centuries, its use as a food for the culture of larval organisms apparently began only in the 1930s, when several investigators found that it made an excellent food for newly hatched fish larvae (Litvinenko et al., 2023). As aquaculture developed in the 1960s and ‘70s, the use of Artemia also became more widespread, due both to its convenience and to its nutritional value for larval organisms (Arenas-Pardo et al., 2024). The fact that Artemia dormant cysts can be stored for long periods in cans, and then used as an off-the-shelf food requiring only 24 h of incubation makes them the most convenient, least labor-intensive, live food available for aquaculture (Sorgeloos & Roubach, 2021). The nutritional value of Artemia, especially for marine organisms, is not constant, but varies both geographically and temporally. During the last decade, however, both the causes of Artemia nutritional variability and methods to improve poorquality Artemia have been identified (Loufi et al., 2024).
Brine shrimp (Artemia spp.) are used in marine aquaculture worldwide. Annually, more than 2,000 metric tons of dry cysts are used for cultivation of fish, crustacean, and shellfish larva. Brine shrimp are important to aquaculture because newly hatched brine shrimp nauplii (larvae) provide a food source for many fish fry (Mozanzadeh et al., 2021). Culture and harvesting of brine shrimp eggs represents another aspect of the aquaculture industry. Nauplii and metanauplii of Artemia, commonly known as brine shrimp, play a crucial role in aquaculture due to their nutritional value and suitability as live feed for many aquatic species, particularly in larval stages (Sorgeloos & Roubach, 2021).
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
Remote Sensing and Computational, Evolutionary, Supercomputing, and Intellige...University of Maribor
Slides from talk:
Aleš Zamuda: Remote Sensing and Computational, Evolutionary, Supercomputing, and Intelligent Systems.
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Inter-Society Networking Panel GRSS/MTT-S/CIS Panel Session: Promoting Connection and Cooperation
https://www.etran.rs/2024/en/home-english/
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
Authoring a personal GPT for your research and practice: How we created the Q...Leonel Morgado
Thematic analysis in qualitative research is a time-consuming and systematic task, typically done using teams. Team members must ground their activities on common understandings of the major concepts underlying the thematic analysis, and define criteria for its development. However, conceptual misunderstandings, equivocations, and lack of adherence to criteria are challenges to the quality and speed of this process. Given the distributed and uncertain nature of this process, we wondered if the tasks in thematic analysis could be supported by readily available artificial intelligence chatbots. Our early efforts point to potential benefits: not just saving time in the coding process but better adherence to criteria and grounding, by increasing triangulation between humans and artificial intelligence. This tutorial will provide a description and demonstration of the process we followed, as two academic researchers, to develop a custom ChatGPT to assist with qualitative coding in the thematic data analysis process of immersive learning accounts in a survey of the academic literature: QUAL-E Immersive Learning Thematic Analysis Helper. In the hands-on time, participants will try out QUAL-E and develop their ideas for their own qualitative coding ChatGPT. Participants that have the paid ChatGPT Plus subscription can create a draft of their assistants. The organizers will provide course materials and slide deck that participants will be able to utilize to continue development of their custom GPT. The paid subscription to ChatGPT Plus is not required to participate in this workshop, just for trying out personal GPTs during it.
The technology uses reclaimed CO₂ as the dyeing medium in a closed loop process. When pressurized, CO₂ becomes supercritical (SC-CO₂). In this state CO₂ has a very high solvent power, allowing the dye to dissolve easily.