This report categorizes and graphically analyzes research trends around 3D printing and the
processes involved and its applications from various perspectives and highlights the key
companies involved.
For all the potential in the industry, however, not all 3D printing companies will see the same
levels of success. Jefferies rates 3D Systems and Stratasys at the top of the sector, with the
former edging out the latter for supremacy.
3D printing or additive manufacturing is a process of making a three-dimensional solid object of virtually any shape from a digital model. 3D printing is achieved using an additive process, where successive layers of material are laid down in different shapes. 3D printing is also considered distinct from traditional machining techniques, which mostly rely on the removal of material by methods such as cutting or drilling (subtractive processes).
This report takes a look into the patenting activity around 3D printing uncovering the inventors, the companies and key technologies and prominent companies within this space.
Graphene is an allotrope of carbon, whose structure is one-atom-thick planar sheets of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice.
The development of this technology is still largely research-based, with a relatively large portion of academic participation, although real-world consumer applications such as flexible touchscreen displays are getting closer to reality and could be widely available within the next few years.
Because of its range of extraordinary properties, people are considering using graphene in a myriad of different applications. For example, because graphene is so strong, people want to use it to reinforce plastics, making them conductive at the same time. Because it's transparent and conducts electricity, people want to use it in applications like mobile phone screens, touch screens, TV screens and so on. People are also considering using it to go beyond silicon technology and make our integrated circuits even denser and speedier.
This report categorizes and graphically analyzes graphene technologies, research activity, applications, companies active in this research area, the filings spread, key comparisons etc.
Powerpoint presentation for the ProX 500
Its main features are:
- Injection molding plastic like parts
- High repeatability
- Recycle the consumable
- 7x faster than comparable technologies
- Print volume 381 x 330 x 457mm
- Layer thickness 0.08 to 0.15mm
- Volume build rate 2L/h
Its typical applications are:
- Plastic injection molding industries
- Small production runs
3D Systems Multi Jet Printing (MJP) family comprises of the ProJet 3510 SD, 3510 HD, 3510 HDPlus and 3500 HDMax.
All printers of this family offer the following advantages:
- Exceptional sidewall quality
- Unmatched surface smoothness
- 10-25% less material consumption
- High volume capacity
- Ability to stack up parts
- Minimal post processing by melting the wax support material
- Visijet M3 highly versatile printing material
ProJet 35X0 family member differ by:
- Speed and printing mode
- Résolution
Applications: prototype, testing, dental, jewelry, direct casting
This report categorizes and graphically analyzes research trends around nanofabrics and the
processes involved and its applications from various perspectives and highlights the key
companies involved.
The use of nanoparticles and nanofibers to produce specialized nanofabrics became a subject of
interest after the sol-gel and electrospinning techniques were fully developed in the 1980s.
Since 2000, dramatic increases in global funding have accelerated research efforts in
nanotechnology, including nanofabrics research.
This report categorizes and graphically analyzes research trends around nanofabrics and the
processes involved and its applications from various perspectives and highlights the key
companies involved.
The use of nanoparticles and nanofibers to produce specialized nanofabrics became a subject of
interest after the sol-gel and electrospinning techniques were fully developed in the 1980s.
Since 2000, dramatic increases in global funding have accelerated research efforts in
nanotechnology, including nanofabrics research.
The purpose of this report on Food Safety Testing is to provide insights into the large and ever
growing food testing market and also covers the different testing technologies adopted worldwide.
With outbreaks and contamination like salmonella, E. coli, listeria, and many more the food testing
market has grown at a rapid pace. Testing concerns as well as this rapidly growing international
trade in food has stimulated the demand for more food safety testing all over the world and has led
to technological innovation in areas such as rapid testing and new test technologies such as PCR,
Biosensors, Chromatography. Etc.
A fiber that has a width of less than 1000 nanometers (1000 nm or 1 μm) is generally defined as a nano fiber. A nanoparticle is defined as a small group of atoms or molecules with a radius of less than 100 nanometers (100 nm).Particles on the nanoscale have a very high surface area to volume ratio, whereas this ratio is much lower for objects on the macroscopic scale.
Nanofabrics are textiles engineered with small particles that give ordinary materials advantageous properties such as superhydrophobicity, odor and moisture elimination, increased elasticity and strength, and bacterial resistance. Depending on the desired property, a nanofabric is either constructed from nanoscopic fibers called nano fibers, or is formed by applying a solution containing nanoparticles to a regular fabric.
Applications of nanofabrics have the potential to revolutionize textile manufacturing and areas of medicine such as drug delivery and tissue engineering.
This report looks at the patenting activity around nanofabric processes, different applications and highlights the key companies involved, patents were categorized as per key processes and applications and highlights the key companies involved.
3D printing or additive manufacturing is a process of making a three-dimensional solid object of virtually any shape from a digital model. 3D printing is achieved using an additive process, where successive layers of material are laid down in different shapes. 3D printing is also considered distinct from traditional machining techniques, which mostly rely on the removal of material by methods such as cutting or drilling (subtractive processes).
This report takes a look into the patenting activity around 3D printing uncovering the inventors, the companies and key technologies and prominent companies within this space.
Graphene is an allotrope of carbon, whose structure is one-atom-thick planar sheets of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice.
The development of this technology is still largely research-based, with a relatively large portion of academic participation, although real-world consumer applications such as flexible touchscreen displays are getting closer to reality and could be widely available within the next few years.
Because of its range of extraordinary properties, people are considering using graphene in a myriad of different applications. For example, because graphene is so strong, people want to use it to reinforce plastics, making them conductive at the same time. Because it's transparent and conducts electricity, people want to use it in applications like mobile phone screens, touch screens, TV screens and so on. People are also considering using it to go beyond silicon technology and make our integrated circuits even denser and speedier.
This report categorizes and graphically analyzes graphene technologies, research activity, applications, companies active in this research area, the filings spread, key comparisons etc.
Powerpoint presentation for the ProX 500
Its main features are:
- Injection molding plastic like parts
- High repeatability
- Recycle the consumable
- 7x faster than comparable technologies
- Print volume 381 x 330 x 457mm
- Layer thickness 0.08 to 0.15mm
- Volume build rate 2L/h
Its typical applications are:
- Plastic injection molding industries
- Small production runs
3D Systems Multi Jet Printing (MJP) family comprises of the ProJet 3510 SD, 3510 HD, 3510 HDPlus and 3500 HDMax.
All printers of this family offer the following advantages:
- Exceptional sidewall quality
- Unmatched surface smoothness
- 10-25% less material consumption
- High volume capacity
- Ability to stack up parts
- Minimal post processing by melting the wax support material
- Visijet M3 highly versatile printing material
ProJet 35X0 family member differ by:
- Speed and printing mode
- Résolution
Applications: prototype, testing, dental, jewelry, direct casting
This report categorizes and graphically analyzes research trends around nanofabrics and the
processes involved and its applications from various perspectives and highlights the key
companies involved.
The use of nanoparticles and nanofibers to produce specialized nanofabrics became a subject of
interest after the sol-gel and electrospinning techniques were fully developed in the 1980s.
Since 2000, dramatic increases in global funding have accelerated research efforts in
nanotechnology, including nanofabrics research.
This report categorizes and graphically analyzes research trends around nanofabrics and the
processes involved and its applications from various perspectives and highlights the key
companies involved.
The use of nanoparticles and nanofibers to produce specialized nanofabrics became a subject of
interest after the sol-gel and electrospinning techniques were fully developed in the 1980s.
Since 2000, dramatic increases in global funding have accelerated research efforts in
nanotechnology, including nanofabrics research.
The purpose of this report on Food Safety Testing is to provide insights into the large and ever
growing food testing market and also covers the different testing technologies adopted worldwide.
With outbreaks and contamination like salmonella, E. coli, listeria, and many more the food testing
market has grown at a rapid pace. Testing concerns as well as this rapidly growing international
trade in food has stimulated the demand for more food safety testing all over the world and has led
to technological innovation in areas such as rapid testing and new test technologies such as PCR,
Biosensors, Chromatography. Etc.
A fiber that has a width of less than 1000 nanometers (1000 nm or 1 μm) is generally defined as a nano fiber. A nanoparticle is defined as a small group of atoms or molecules with a radius of less than 100 nanometers (100 nm).Particles on the nanoscale have a very high surface area to volume ratio, whereas this ratio is much lower for objects on the macroscopic scale.
Nanofabrics are textiles engineered with small particles that give ordinary materials advantageous properties such as superhydrophobicity, odor and moisture elimination, increased elasticity and strength, and bacterial resistance. Depending on the desired property, a nanofabric is either constructed from nanoscopic fibers called nano fibers, or is formed by applying a solution containing nanoparticles to a regular fabric.
Applications of nanofabrics have the potential to revolutionize textile manufacturing and areas of medicine such as drug delivery and tissue engineering.
This report looks at the patenting activity around nanofabric processes, different applications and highlights the key companies involved, patents were categorized as per key processes and applications and highlights the key companies involved.
This report takes a look into the patenting activity around thin film batteries uncovering the inventors, the companies and key technologies.This report focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, existing & emerging trends in the different technological advancements in thin film batteries.This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
This report takes a look into the patenting activity around gallium Nitride uncovering the companies, inventors, and key applications.
GaN is a binary III-V direct bandgap semiconductor commonly used in LEDs. Its wide-band gap of 3.4 eV affords its special properties for applications in optoelectronic, high-power and high-frequency devices. Because GaN offers very high breakdown voltages, high electron mobility, and saturation velocity it is also an ideal candidate for high-power and high-temperature microwave applications like RF power amplifiers at microwave frequencies and high-voltage switching devices for power grids. Solutions that use GaN-based RF transistors are also replacing the magnetrons used in microwave ovens.
Gallium Nitride (GaN) transistor models have evolved from GaAs (gallium arsenide) transistor models; however there are many advantages GaN offers:
• Higher operating voltage (over 100-V breakdown)
• Higher operating temperature (over 150°C channel temperature)
• Higher power density (5 to 30 W/mm)
• Durable and crack-resistant material
GaN devices are often grown on SiC (silicon carbide) substrates, but to achieve lower-cost GaN devices, they can be grown on sapphire and silicon wafers. GaN’s wide bandgap allows for higher breakdown voltages and operation at high temperatures. The high thermal conductivity of SiC makes it a better substrate than silicon for power amplifier applications that require good heat sinking.
The global precision medicine market is expected to reach $278.61 billion by the end of 2030. The market is projected to grow at a CAGR of 11.13% during the forecast period, 2020-2030.
The global precision medicine market is expected to reach $278.61 billion by the end of 2030. The market is projected to grow at a CAGR of 11.13% during the forecast period, 2020-2030.
The digital surgery technologies market was estimated at $252.5 Million in 2019 and is projected to grow at a CAGR of 32.10% during the forecast period from 2020-2030.
The global market for advanced balloon catheter generated $2.52 billion in 2019 and is projected to reach the mark of $4.41 billion by the end of 2030, with a CAGR of 6.25% over the period 2021-2030.
Software defined networks (SDNs) is one of the most emerging field and will cause
revolution in the Information Technology (IT) industry. The flexibility in the SDNs
make it most attractive technology to adopt in all type of networks. This flexibility in
the network made the SDNs more prone to the security issues so it is important to cater
these issues in start from the SDN design up-to the deployment and operations. This
Paper proposed a DNS based approach to prevent SDNs from botnet by applying one
million web database concept without reading packet payload. To do any activity, Bot
need to communicate with CnC and requires DNS to IP resolution. For any request
having destination port 53 (DNS) will be checked. The protocol will get all matching
traffic and will send it to 1Mdb. If URL Exists in 1Mdb then do not respond otherwise
send reply with remove flow and block flow to the controller. This approach will use
Machine learning algorithms to classify the traffic as BOT or normal traffic. Naive
Bayes Classifier is used to classify the data using python programming language. The
selection of dataset is very important task for machine learning based botnet detection
and prevention techniques. The poor selection of dataset possibly lead to biased results.
The real world and publically available dataset is a good choice for evaluation of botnet
detection techniques. To meet these criteria, publicly available CTU-43 botnet dataset
has been used. This dataset provide packet dumps (pcap files) of seven real botnets
(Neris, Rbot, Virut, Murlo, Menti, Sogou, and NSIS). We will use these files to generate
botnet traffic for evaluation and test our model. To generate normal traffic, we selected
ISOT dataset. This dataset provides a single pcap file having normal traffic and traffic
for weladec and zeus botnet.
This is a brief report for results from for Radio Frequency Identification (RFID) Innovation FrontlineTM research. RFID Innovation FrontlineTM shows a technology innovations landscape for Radio Frequency Identification (RFID). RFID Innovation FrontlineTM utilizes patent information to assess the state of the art for technology innovations in RFID. RFID Innovation FrontlineTM analyzes the utility patents issued in the United States (US) before January 1, 2009.
The global CRISPR gene editing market was valued at $1,088.6 million in 2020, and it is expected to reach $18,856.6 million by 2031, registering a CAGR of 29.60% during the forecast period.
Robotics is a rapidly growing field, as we continue to research, design, and build new robots that serve various practical purposes, domestically, commercially. This report graphically analyzes robotic arm technologies from various perspectives, categorizes and highlights the key companies involved, defines unique categories.
This report also covers the global robotic arms marketplace. It focuses particularly on the markets and opportunities for robotic arms in material handling, welding, medical fields, agricultural activities.
This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
Published: Mar 8, 2012
Miniature Drug delivery System uses micro-fabricated devices to administer drugs to the host and has advantages over a conventional drug delivery system
A MEMS based Implantable Drug Delivery System (IDDS) is discussed. The heart of the system is an in-plane MEMS micropumps enables us to make a compact, inexpensive system. A conceptual IDDS design is proposed. This design consists of an implantable unit which houses the micropumps, electronic and power circuitry. This implantable unit is connected to a subcutaneous port via a silicone catheter. The subcutaneous port acts as a refillable reservoir. This leads to a reduction in unit volume and makes the system customizable. The IDDS pumps drug into surrounding tissue with the help of a MEMS based micropumps. Similarly Microneedles are also used in drug administration.
This report gives an overview of patenting activity around Miniature Drug Delivery System. Smart drug delivery system is used for delivering drugs to the host effectively and improves the quality of life of the patients. Patents were categorized as per key Drug Delivery administration methods, types of sensors, applications, communication techniques and analyzed for generating different trends with Patent iNSIGHT Pro.
Miniature Drug Delivery System technology has seen a consistent increase in the number of patent publications from 2008 till 2012 as the need for smart drug delivery has increase globally.
Published: Apr 30, 2013
The Canada laparoscopy devices market was valued at $392.1 million in 2021 and is anticipated to reach $865.6 million by 2031, witnessing a CAGR of 7.31% during the forecast period 2022-2031.
Techno-economic analyses of specific Styrene-Acrylonitrile Resin (SAN) production processes, presenting capital investment breakdown, raw materials consumed and operating costs. Know more at www.intratec.us/products/san-production-processes
Modelling and 3D Printing of Differential Gear Boxijtsrd
The main aim of the project is to focus on the modeling and 3D printing of differential gear box. Differential permit each of the driving wheels to rotate at different speeds, while for most vehicles supplying equal torque to each of them. A vehicles wheels rotate at divergent speeds, mainly when turning corners. The differential is designed to operate a pair of wheels with same torque while permit them to rotate at different speeds. Differential gear box is designed in CATIA V5 software and manufactured using additive manufacturing 3D printing . The function of gear is to protect and provide a platform for gear transmission. It also provides supports for moving parts and protection from outside environmental condition. Yogesh Avula | Vanga Rajeev Narayana Reddy | VojaAnand Swaroop | Varikuppala Srisailam ""Modelling and 3D Printing of Differential Gear Box"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23287.pdf
Paper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/23287/modelling-and-3d-printing-of-differential-gear-box/yogesh-avula
Techno-economic analyses of specific Dicyclopentadiene (DCPD) production processes, presenting capital investment breakdown, raw materials consumed and operating costs.
Know more at www.intratec.us/products/dcpd-production-processes
This report takes a look into the patenting activity around thin film batteries uncovering the inventors, the companies and key technologies.This report focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, existing & emerging trends in the different technological advancements in thin film batteries.This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
This report takes a look into the patenting activity around gallium Nitride uncovering the companies, inventors, and key applications.
GaN is a binary III-V direct bandgap semiconductor commonly used in LEDs. Its wide-band gap of 3.4 eV affords its special properties for applications in optoelectronic, high-power and high-frequency devices. Because GaN offers very high breakdown voltages, high electron mobility, and saturation velocity it is also an ideal candidate for high-power and high-temperature microwave applications like RF power amplifiers at microwave frequencies and high-voltage switching devices for power grids. Solutions that use GaN-based RF transistors are also replacing the magnetrons used in microwave ovens.
Gallium Nitride (GaN) transistor models have evolved from GaAs (gallium arsenide) transistor models; however there are many advantages GaN offers:
• Higher operating voltage (over 100-V breakdown)
• Higher operating temperature (over 150°C channel temperature)
• Higher power density (5 to 30 W/mm)
• Durable and crack-resistant material
GaN devices are often grown on SiC (silicon carbide) substrates, but to achieve lower-cost GaN devices, they can be grown on sapphire and silicon wafers. GaN’s wide bandgap allows for higher breakdown voltages and operation at high temperatures. The high thermal conductivity of SiC makes it a better substrate than silicon for power amplifier applications that require good heat sinking.
The global precision medicine market is expected to reach $278.61 billion by the end of 2030. The market is projected to grow at a CAGR of 11.13% during the forecast period, 2020-2030.
The global precision medicine market is expected to reach $278.61 billion by the end of 2030. The market is projected to grow at a CAGR of 11.13% during the forecast period, 2020-2030.
The digital surgery technologies market was estimated at $252.5 Million in 2019 and is projected to grow at a CAGR of 32.10% during the forecast period from 2020-2030.
The global market for advanced balloon catheter generated $2.52 billion in 2019 and is projected to reach the mark of $4.41 billion by the end of 2030, with a CAGR of 6.25% over the period 2021-2030.
Software defined networks (SDNs) is one of the most emerging field and will cause
revolution in the Information Technology (IT) industry. The flexibility in the SDNs
make it most attractive technology to adopt in all type of networks. This flexibility in
the network made the SDNs more prone to the security issues so it is important to cater
these issues in start from the SDN design up-to the deployment and operations. This
Paper proposed a DNS based approach to prevent SDNs from botnet by applying one
million web database concept without reading packet payload. To do any activity, Bot
need to communicate with CnC and requires DNS to IP resolution. For any request
having destination port 53 (DNS) will be checked. The protocol will get all matching
traffic and will send it to 1Mdb. If URL Exists in 1Mdb then do not respond otherwise
send reply with remove flow and block flow to the controller. This approach will use
Machine learning algorithms to classify the traffic as BOT or normal traffic. Naive
Bayes Classifier is used to classify the data using python programming language. The
selection of dataset is very important task for machine learning based botnet detection
and prevention techniques. The poor selection of dataset possibly lead to biased results.
The real world and publically available dataset is a good choice for evaluation of botnet
detection techniques. To meet these criteria, publicly available CTU-43 botnet dataset
has been used. This dataset provide packet dumps (pcap files) of seven real botnets
(Neris, Rbot, Virut, Murlo, Menti, Sogou, and NSIS). We will use these files to generate
botnet traffic for evaluation and test our model. To generate normal traffic, we selected
ISOT dataset. This dataset provides a single pcap file having normal traffic and traffic
for weladec and zeus botnet.
This is a brief report for results from for Radio Frequency Identification (RFID) Innovation FrontlineTM research. RFID Innovation FrontlineTM shows a technology innovations landscape for Radio Frequency Identification (RFID). RFID Innovation FrontlineTM utilizes patent information to assess the state of the art for technology innovations in RFID. RFID Innovation FrontlineTM analyzes the utility patents issued in the United States (US) before January 1, 2009.
The global CRISPR gene editing market was valued at $1,088.6 million in 2020, and it is expected to reach $18,856.6 million by 2031, registering a CAGR of 29.60% during the forecast period.
Robotics is a rapidly growing field, as we continue to research, design, and build new robots that serve various practical purposes, domestically, commercially. This report graphically analyzes robotic arm technologies from various perspectives, categorizes and highlights the key companies involved, defines unique categories.
This report also covers the global robotic arms marketplace. It focuses particularly on the markets and opportunities for robotic arms in material handling, welding, medical fields, agricultural activities.
This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
Published: Mar 8, 2012
Miniature Drug delivery System uses micro-fabricated devices to administer drugs to the host and has advantages over a conventional drug delivery system
A MEMS based Implantable Drug Delivery System (IDDS) is discussed. The heart of the system is an in-plane MEMS micropumps enables us to make a compact, inexpensive system. A conceptual IDDS design is proposed. This design consists of an implantable unit which houses the micropumps, electronic and power circuitry. This implantable unit is connected to a subcutaneous port via a silicone catheter. The subcutaneous port acts as a refillable reservoir. This leads to a reduction in unit volume and makes the system customizable. The IDDS pumps drug into surrounding tissue with the help of a MEMS based micropumps. Similarly Microneedles are also used in drug administration.
This report gives an overview of patenting activity around Miniature Drug Delivery System. Smart drug delivery system is used for delivering drugs to the host effectively and improves the quality of life of the patients. Patents were categorized as per key Drug Delivery administration methods, types of sensors, applications, communication techniques and analyzed for generating different trends with Patent iNSIGHT Pro.
Miniature Drug Delivery System technology has seen a consistent increase in the number of patent publications from 2008 till 2012 as the need for smart drug delivery has increase globally.
Published: Apr 30, 2013
The Canada laparoscopy devices market was valued at $392.1 million in 2021 and is anticipated to reach $865.6 million by 2031, witnessing a CAGR of 7.31% during the forecast period 2022-2031.
Techno-economic analyses of specific Styrene-Acrylonitrile Resin (SAN) production processes, presenting capital investment breakdown, raw materials consumed and operating costs. Know more at www.intratec.us/products/san-production-processes
Modelling and 3D Printing of Differential Gear Boxijtsrd
The main aim of the project is to focus on the modeling and 3D printing of differential gear box. Differential permit each of the driving wheels to rotate at different speeds, while for most vehicles supplying equal torque to each of them. A vehicles wheels rotate at divergent speeds, mainly when turning corners. The differential is designed to operate a pair of wheels with same torque while permit them to rotate at different speeds. Differential gear box is designed in CATIA V5 software and manufactured using additive manufacturing 3D printing . The function of gear is to protect and provide a platform for gear transmission. It also provides supports for moving parts and protection from outside environmental condition. Yogesh Avula | Vanga Rajeev Narayana Reddy | VojaAnand Swaroop | Varikuppala Srisailam ""Modelling and 3D Printing of Differential Gear Box"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23287.pdf
Paper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/23287/modelling-and-3d-printing-of-differential-gear-box/yogesh-avula
Techno-economic analyses of specific Dicyclopentadiene (DCPD) production processes, presenting capital investment breakdown, raw materials consumed and operating costs.
Know more at www.intratec.us/products/dcpd-production-processes
Patent Anlaysis Report - Miniature drug delivery systemsPrashant Nair
This report takes a look into the patenting activity around miniature/smart drug delivery system, uncovering the key companies, inventors, and different sub categories.
PatSeer™ is a Web 2.0 patent research platform that is poised to change how patent professionals collaborate on patent projects. It includes a global patent database comprising 60 million plus records along with many calculated fields for superior research.
Innovations in food and medicine packagingPrashant Nair
This report takes a look into the patenting activity around innovations in food and medical packaging uncovering the companies, inventors, intellectual property trends and other key indicators. It focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, packaging types, the companies most active in this research area, the filings spread, key comparisons etc. In contour, records are placed based on their contextual similarity shared with neighboring records. Closer the clusters, more is the overlap or correlation between them.
This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis.
Technology iNSIGHT Report - Knee Problems Diagnosis and TreatmentsPrashant Nair
This report takes a look into the patenting activity uncovering the inventors, the companies and the intellectual property history behind different knee anatomy, its research momentum and key intellectual property indicators. Knee is one of the most important joints of our body. It plays an essential role in movement related to carrying the body weight in horizontal (running and walking) and vertical (jumps) directions. Knee joint is made up of bone, cartilage, ligaments and fluid. Muscles and tendons help the knee joint move. Knee is a pivotal hinge joint, which permits flexion and extension as well as a slight medial and lateral rotation. Since in humans the knee supports nearly the whole weight of the body, it is vulnerable to different injuries. Knee is composed of three functional compartments: the femoropatellar articulation consists of the patella, or "kneecap", and the patellar groove on the front of the femur through which it slides; and the medial and lateral femorotibial articulations linking the femur, or thigh bone, with the tibia, the main bone of the lower leg. The joint is bathed in synovial fluid which is contained inside the synovial membrane called the joint capsule. Overall, the research and development work related to the crutiate ligament appears to be a highly active and growing one. This report focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, problem areas, the companies most active in this research area, the filings spread, key comparisons etc. This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
The report covers patent analysis on types and application areas of robotic arms, their research trends and key intellectual property indicators. This article was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis.
This report covers patent analysis on types and application areas of probiotics, their research trends and key intellectual property indicators. This article was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis.
This report covers patent analysis on types and application areas of fiber optic sensors, their research trends and key intellectual property indicators. This article was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis.
This report covers patent analysis on the use and application of fuel additives, its research momentum and key intellectual property indicators. Additives have been developed to increase combustion rates, as anti oxidants, to effect burn rates, to enable fuels to work under extreme temperatures, reduce harmful emissions and more. Patent data reveals various organizations have focused their research across different categories and application areas of additives with some working on the cleaning properties, some on the anti oxidation properties and others having more research around catalysts. This report focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, the companies most active in this research area, the filings spread, key comparisons etc. This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
This report takes a look into the patenting activity around slot machines uncovering the inventors, the companies and the intellectual property history behind these gaming devices, its research momentum and key intellectual property indicators. Slot machines are mechanical devices which employ three, four or even more reels of different dimensions and are popularly used as gaming devices. Overall, the research and development work related to finding solutions to slot machines appears to be a highly active and growing one. This report focuses on how Patent data can help uncover the trends, gaps and opportunities that exist around this area. You will find the information on the research activity, application areas, the companies most active in this research area, the filings spread, key comparisons etc. This report was prepared by mining patent data using Patent iNSIGHT Pro, a comprehensive patent analysis platform that helps one accelerate time-to-decision from patent analysis activities.
Analysis insight about a Flyball dog competition team's performanceroli9797
Insight of my analysis about a Flyball dog competition team's last year performance. Find more: https://github.com/rolandnagy-ds/flyball_race_analysis/tree/main
Levelwise PageRank with Loop-Based Dead End Handling Strategy : SHORT REPORT ...Subhajit Sahu
Abstract — Levelwise PageRank is an alternative method of PageRank computation which decomposes the input graph into a directed acyclic block-graph of strongly connected components, and processes them in topological order, one level at a time. This enables calculation for ranks in a distributed fashion without per-iteration communication, unlike the standard method where all vertices are processed in each iteration. It however comes with a precondition of the absence of dead ends in the input graph. Here, the native non-distributed performance of Levelwise PageRank was compared against Monolithic PageRank on a CPU as well as a GPU. To ensure a fair comparison, Monolithic PageRank was also performed on a graph where vertices were split by components. Results indicate that Levelwise PageRank is about as fast as Monolithic PageRank on the CPU, but quite a bit slower on the GPU. Slowdown on the GPU is likely caused by a large submission of small workloads, and expected to be non-issue when the computation is performed on massive graphs.
Adjusting OpenMP PageRank : SHORT REPORT / NOTESSubhajit Sahu
For massive graphs that fit in RAM, but not in GPU memory, it is possible to take
advantage of a shared memory system with multiple CPUs, each with multiple cores, to
accelerate pagerank computation. If the NUMA architecture of the system is properly taken
into account with good vertex partitioning, the speedup can be significant. To take steps in
this direction, experiments are conducted to implement pagerank in OpenMP using two
different approaches, uniform and hybrid. The uniform approach runs all primitives required
for pagerank in OpenMP mode (with multiple threads). On the other hand, the hybrid
approach runs certain primitives in sequential mode (i.e., sumAt, multiply).
Adjusting primitives for graph : SHORT REPORT / NOTESSubhajit Sahu
Graph algorithms, like PageRank Compressed Sparse Row (CSR) is an adjacency-list based graph representation that is
Multiply with different modes (map)
1. Performance of sequential execution based vs OpenMP based vector multiply.
2. Comparing various launch configs for CUDA based vector multiply.
Sum with different storage types (reduce)
1. Performance of vector element sum using float vs bfloat16 as the storage type.
Sum with different modes (reduce)
1. Performance of sequential execution based vs OpenMP based vector element sum.
2. Performance of memcpy vs in-place based CUDA based vector element sum.
3. Comparing various launch configs for CUDA based vector element sum (memcpy).
4. Comparing various launch configs for CUDA based vector element sum (in-place).
Sum with in-place strategies of CUDA mode (reduce)
1. Comparing various launch configs for CUDA based vector element sum (in-place).
06-04-2024 - NYC Tech Week - Discussion on Vector Databases, Unstructured Data and AI
Discussion on Vector Databases, Unstructured Data and AI
https://www.meetup.com/unstructured-data-meetup-new-york/
This meetup is for people working in unstructured data. Speakers will come present about related topics such as vector databases, LLMs, and managing data at scale. The intended audience of this group includes roles like machine learning engineers, data scientists, data engineers, software engineers, and PMs.This meetup was formerly Milvus Meetup, and is sponsored by Zilliz maintainers of Milvus.
1. 3D Printing
Technology Insight Report
An analysis of patenting activity around 3D-Printing
from 1990-Current
Gridlogics Technologies Pvt Ltd
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