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osint-technology01 · 8 months ago

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Revolutionizing IT: Oxide's Commercial Cloud Computer Explained

What is a Commercial Cloud Computer?

Oxide Computer Company has introduced something truly groundbreaking: the world’s first Commercial cloud computer. This innovative system combines hardware and software to make cloud computing simpler and more accessible for businesses.

To make this possible, Oxide raised $44 million in funding, targeting Fortune 1000 companies. In total, the company has secured $78 million, which shows just how much people believe in this new technology.

What is Cloud Technology?

Cloud technology allows businesses to store and access data and programs over the internet instead of using physical servers in their offices. Imagine having all your important files saved somewhere safe and being able to open them from any device, anywhere in the world. That’s what cloud technology does!

A New Way to Think About Commercial Cloud Computing

For years, cloud computing has helped businesses grow and succeed. But many companies still rely on old-fashioned servers in their offices. These servers can be slow, hard to manage, and take up a lot of space.

On the other hand, public cloud services—where businesses rent storage space and computing power from someone else—often have problems too. They can be:

Expensive: Costs can add up quickly.

Less Private: Data is stored in someone else’s system.

Slower: Performance depends on outside providers.

Oxide’s commercial cloud computer fixes these problems. Businesses can now enjoy the speed and efficiency of cloud technology without giving up control or spending too much money.

Why Businesses Needed a New Cloud Computer

Many businesses face a tough choice:

Use traditional servers, which are outdated and hard to manage.

Use public clouds, which are expensive and don’t give full control.

Oxide’s founders, Steve Tuck and Bryan Cantrill, wanted to change this. They created a system that is:

Simple: Easy for businesses to use.

Powerful: Works faster and better than traditional systems.

Affordable: Saves money in the long run.

Their goal was to bring the best of both worlds to businesses everywhere.

What Makes Oxide’s Commercial Cloud Computer Special?

Oxide’s system is completely different from what businesses are used to. Here’s why it stands out:

Easy to Use: The system is ready to go right out of the box. There’s no need for complicated setup.

Compact and Energy Efficient: It saves space and uses less energy, making it better for the environment.

Highly Secure: Advanced features keep business data safe from hackers.

Everything in the system works perfectly together, saving businesses time and effort.

How Does Oxide’s Cloud Computer Work?

Unlike older systems that need separate servers, storage, and networking equipment, Oxide combines everything into one powerful package.

The hardware and software are designed to work seamlessly together, which:

Reduces technical problems.

Boosts performance.

Makes the system faster and easier to use.

How It Solves Business Problems

Oxide’s cloud computer was designed to tackle the challenges businesses face:

High Costs: Renting cloud services can be expensive. With Oxide, businesses own their systems and save money.

Slow Speeds: Since the system is local, it runs faster and smoother.

Security Concerns: Keeping data on-site means businesses can better protect their information.

This makes Oxide a great choice for industries like:

Banking: Where security is critical.

Research: Where speed matters.

Retail: Where efficient systems are key.

The Hard Work Behind the Innovation

Creating a product like Oxide’s cloud computer took years of effort and dedication.

The team, led by Steve Tuck and Bryan Cantrill, included 60 experts who redesigned cloud systems from scratch. Their experience at big companies like Dell and Sun Microsystems helped them understand what businesses needed.

How It Helps Businesses Upgrade Quickly

With Oxide’s cloud computer, businesses can upgrade their IT systems almost instantly. Unlike traditional setups that take weeks or months, this system is ready to use in just a few hours.

Here’s why it’s so convenient:

It includes everything businesses need.

No extra parts or software are required.

Everything is pre-configured, saving time and reducing stress.

Companies like the Idaho National Laboratory and a leading financial firm are already using this system, and more businesses are expected to adopt it soon.

A New Chapter for Cloud Computing

Oxide’s commercial cloud computer isn’t just a new product; it’s a new way of thinking about cloud technology. Instead of renting space in someone else’s system, businesses can now own their own cloud systems.

This innovation could change how cloud computing is used worldwide. By giving businesses more control, Oxide is leading the way toward a smarter and more efficient future.

Final Thoughts

The launch of Oxide’s commercial cloud computer is a big step forward in technology. It provides businesses with a solution that is:

Simple

Fast

Secure

This isn’t just about having new technology. It’s about making work easier for businesses and helping them grow. As more companies start using Oxide’s system, it’s clear that this is just the beginning of a brighter future for IT.

#artificial intelligence #https://www.salesforce.com #Oxide's Commercial Cloud Computer #Commercial Cloud Computer #Cloud Computer #technology #Informational

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researchinsights24 · 2 years ago

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Silicon Photonics Market Drives by Demand for High Bandwidth

Silicon photonics technology refers to the integration of Photonic systems and electronic integrated circuits (IC) on a single silicon chip. It utilizes optical devices such as waveguides, modulators, detectors and switches fabricated using complementary metal oxide semiconductor(CMOS) process. Silicon photonics helps in improving bandwidth and reducing size, weight and energy consumption of telecommunication networks and optical interconnects. It finds wide applications in data centers, high performance computing, healthcare, consumer electronics among others. The technology enables high-speed data transfers between processors and other components without electrical bottlenecks. The global silicon photonics market is estimated to be valued at US$ 1949.78 Mn in 2023 and is expected to exhibit a CAGR of 4.3% over the forecast period 2023 to 2030, as highlighted in a new report published by Coherent Market Insights. Market Dynamics: One of the major drivers for the growth of silicon photonics market is the increasing demand for data centers. Rapid digitization across industries has led to exponential surge in data generation. This has necessitated increased data storage and processing capacities globally. Silicon photonics offers significant advantages over traditional copper infrastructure in data centers such as reduced size, higher bandwidth, lower power consumption and latency. Additionally, increasing adoption of hyperscale data centers by mega cloud service providers is further augmenting market growth. For instance, according to Cisco annual global cloud index report, global data center IP traffic witnessed a CAGR of 26% from 2017 to 2022 and is expected to grow at a CAGR of 21% from 2022 to 2027. Another driver for the silicon photonics market is increased deployment of 5G networks. 5G network capabilities such as enhanced mobile broadband, massive machine type communications and ultra-reliable low latency communications require increased fiber connectivity and bandwidth. Silicon photonics components enable huge data capacities with reduced latency required for 5G infrastructures. SWOT Analysis Strength: Silicon photonics technology offers higher bandwidth and lower power consumption compared to traditional copper wires. Silicon photonics allows integration of electronic and photonic systems on a single chip leading to compact solutions. The use of silicon as a material makes it compatible with existing microfabrication infrastructure for electronics. Weakness: Development of silicon photonic devices requires high capital investments for equipment and manufacturing facilities. Integrating photonic devices with electronics increases design complexities. Commercialization of these technologies faces challenges related to mass manufacturing. Opportunity: Rising demand for high-speed data transmission and 5G rollout is driving the need for advanced connectivity solutions. Silicon photonics is increasingly being adopted in data center networks, high-performance computers and telecommunication equipment to handle exponential data traffic. Optical interconnects present opportunities to replace copper cables across several industries. Threats: Optical fiber and copper cable manufacturers pose competition as their products have strong market presence. Slow adoption rates and compatibility issues with legacy infrastructure can limit silicon photonics market growth. Key Takeaways The Global Silicon Photonics Market Size is expected to witness high growth over the forecast period driven by exponential data traffic.

Regional analysis: The Asia Pacific region is projected to grow at the fastest pace during the forecast period attributed to massive investments by China, Japan and countries of Southeast Asia in developing theirtelecom and data center infrastructure. China represents around 45% of the Asia Pacific silicon photonics market driven by strong government support for indigenous technology development. Key players operating in the silicon photonics market are Knoll Inc., LLC., HNI Corporation, Herman Miller, Inc., Teknion Corporation, Kimball International Inc., Berco Designs, Kokuyo Co., Ltd., Haworth Inc., Okamura Corporation, and Steelcase Inc. These leaders are focusing on new product launches and partnerships to expand their global footprint.

For More Insights, Read: https://www.newsstatix.com/silicon-photonics-market-size-share-and-growth-forecast-2023-2030/

Related Reports: https://allmeaninginhindi.com/fiber-reinforced-concrete-the-construction-material-of-future/

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ericvanderburg · 2 years ago

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Oxide Launches the World's First 'Commercial' Cloud Computer

http://i.securitythinkingcap.com/Sy4X2y

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dromologue · 2 years ago

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blueweave8 · 3 years ago

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Saudi Arabia Electric Cars Market Insight, Growth, Forecast 2022-2028

A recent study conducted by the strategic consulting and market research firm, BlueWeave Consulting, revealed that Saudi Arabia Electric Cars Market is estimated to grow at a CAGR of 35.8% by the end of 2028. The lucrative growth of Saudi Arabia Electric Cars Market is attributed to the growing adoption of electric cars to reduce fuel usage and emissions. Also, the increasing passenger, as well as commercial transportation along with the aim of the kingdom to increase energy efficiency in its transportation sector supports the market growth. Moreover, various initiatives and programs across the country are encouraging the shift toward Green Mobility because the transportation sector plays a vital role in decreasing the carbon footprint. These programs promote electric, hydrogen, and natural gas cars, as well as mass transportation systems. National Industrial Development Center (NIDC) aims to attract substantial original equipment manufacturers to Saudi Arabia Electric Cars Market. Additionally, Saudi Arabia Electric Cars Market is one of the most emerging markets that grow continuously owing to the fast integration of new technologies like the Internet of Things (IoT), Artificial Intelligence (AI), cloud computing, and others. However, the factors such as expensive electric cars and the lack of charging points across the country hinder the growth of the Saudi Arabia Electric Cars Market.

Based on the propulsion type, the Saudi Arabia Electric Cars Market is fragmented into Battery Electric Vehicle, Hybrid Electric Vehicle, Plug-in Hybrid Electric Vehicle, and Fuel-cell Electric Vehicle. The plug-in hybrid electric vehicle dominates the Saudi Arabia Electric Cars Market because it can provide clean, electric power for regular use and stand ready for that weekend road trip. Moreover, based on battery type, the Saudi Arabia Electric Cars Market is segmented into Lithium-Iron Phosphate, Lithium-Nickel-Manganese Cobalt Oxide, and Other Li-ion battery types. The Lithium-Iron Phosphate segment holds the largest market share because it is a type of Li-ion battery. All lithium-ion batteries charge faster, last longer, and have a higher power density for more battery life in a lighter package.

Request for Sample Report @ https://www.blueweaveconsulting.com/report/saudi-arabia-electric-cars-market/report-sample

Saudi Arabia is setting up its first electric vehicle manufacturing plant in the country with Lucid. The government has planned to ensure 30% of all vehicles in the capital city. Lucid has announced plans to invest in developing the advanced electric cars manufacturing industry to address the growing demand for electric cars. However, the Saudi Arabia Electric Cars Market was negatively impacted by the unprecedented COVID-19 pandemic outbreak. The complete lockdown imposed by the Saudi Arabian government affected all the industries in the market. This resulted in huge losses to the overall market. Furthermore, the declining purchasing power of consumers and halting of charging point infrastructure establishing activities also hindered the growth of the Saudi Arabia Electric Cars Market.

The leading market players in the Saudi Arabia Electric Cars Market are Higher Bus Company Ltd., Anhui Ankai Automotive Co, Ltd., Daimler AG, AB Volvo, Tesla, Lucid Group, Inc., General Motors Company, and others. The market is highly consolidated and dominated by multinational car manufacturers including Tesla Motors Inc. However, with increasing demand for electric vehicles, several EV start-ups are also emerging with significant growth potential in the market. The companies constantly launch new vehicle models and their upgraded versions with advanced features to attract buyers and gain a competitive edge. They also adopt competitive strategies such as partnerships, mergers, acquisitions, joint ventures, etc., to stay ahead in the market.

About Us

BlueWeave Consulting provides comprehensive Market Intelligence (MI) Solutions to businesses regarding online and offline products and services. We offer all-inclusive market research reports by analyzing both qualitative and quantitative data to boost the performance of your business solutions. BWC has built its reputation from the scratch by delivering quality inputs and nourishing long-lasting relationships with its clients. We are one of the promising digital MI solutions companies providing agile assistance to make your business endeavors successful.

BlueWeave Consulting & Research Pvt. Ltd

+1 866 658 6826 | +1 425 320 4776 | +44 1865 60 0662

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#Saudi Arabia Electric Cars Market

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adityarana1687-blog · 4 years ago

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Air Quality Monitoring System Market Estimated To Value $6.5 Billion By 2025

The global air quality monitoring system market size is expected to reach USD 6.5 billion by 2025, expanding at a CAGR of 6.8% from 2019 to 2025, according to a new report by Grand View Research, Inc. There has been a significant rise in pollutants being released into the atmosphere as a result of increase in the number of automobiles and growing industrialization. In response, government and environmental agencies have implemented stringent laws and regulations regarding exhaust emissions. The use of wireless communication networks for IoT-based air quality monitoring systems (AQMS) is likely to be the future by 2025.

Government agencies and smart city authorities are implementing smart city projects that will contribute to preventing deterioration of the environment. Smart city projects in various regions are focusing on adopting advanced technologies to offer improved public amenities, which includes enhancing the quality of air in the city. Furthermore, there has been an increase in the number of shopping malls and commercial parking spaces, which will drive product demand. Growing popularity of air pollution monitoring instruments such as Fourier Transform Infrared (FTIR) instruments, mass spectrometers, and gas chromatographs is a major factor expected to drive the market.

On-going research activities for the development of satellite-based air quality monitoring systems bodes well for market growth. Satellite-based remote sensing technology is immensely promising as satellite sensors measure the concentration of pollutants in the atmosphere through the interference in light reflected or emitted from the earth. The growing emphasis of technical standardization firms on the adoption of advanced measuring principles, such as the ultraviolet fluorescence measuring principle, is a key growth factor. The European Committee for Standardization specifies a continuous measurement method for the determination of concentration of sulfur dioxide present in ambient air based on the ultraviolet fluorescence measuring principle.

The integration of cloud computing in air quality monitoring systems has enabled the development of multi-facility air quality control systems. Moreover, government agencies are increasingly adopting cloud-based software solutions that display the concentration of different pollutants in the atmosphere anywhere and anytime. In addition, companies operating in the market are designing and developing software solutions that collect information from sensors to continuously display the concentration of different pollutants.

To request a sample copy or view summary of this report, click the link below: www.grandviewresearch.com/industry-analysis/air-quality-monitoring-system-market

Further key findings from the report suggest:

Portable indoor quality monitoring systems are expected to gain popularity over the forecast period as they are adopted for short-term air quality studies, checking of pollution hotspots, and personal exposure assessment

The services segment is expected to significantly contribute to market growth over the forecast period as a result of increase in the number of organizations that perform the work of systems integrators. Apart from system integration, these organizations also provide consultancy and maintenance services through long-term contracts

Over exploitation has led to massive desertification, which has resulted in massive rise in physical pollutants in the atmosphere, such as dust particles. Therefore, the physical pollutants monitoring system segment is expected to register the highest CAGR over the forecast period

The food and beverages industry is expected to exhibit the highest CAGR over the forecast period owing to increased cases of food poisoning as result of contamination of food by pollutants in the atmosphere

The Europe market is expected to witness remarkable growth over the forecast period owing to establishment of low emission zones (LEZs) for improving the urban air quality in European countries

Key players in the air quality monitoring system market include 3M; Emerson Electric Co.; General Electric Company; HORIBA, Ltd.; Merck; Siemens AG; Teledyne Technologies Incorporated; and Thermo Fisher Scientific, Inc.

Grand View Research has segmented the global air quality monitoring system market based on product type, pollutant, component, end use, and region:

Air Quality Monitoring System Product Type Outlook (Revenue, USD Million, 2014 - 2025)

Indoor

Outdoor

Fixed

Portable

Fixed

Portable

Air Quality Monitoring System Pollutant Outlook (Revenue, USD Million, 2014 - 2025)

Chemical

Physical

Nitrogen Oxides

Sulphur Oxides

Carbon Oxides

Volatile Organic Compounds

Others

Air Quality Monitoring System Component Outlook (Revenue, USD Million, 2014 - 2025)

Hardware

Software

Services

Sensors

Processors

Output devices

Air Quality Monitoring System End-use Outlook (Revenue, USD Million, 2014 - 2025)

Residential

Commercial

Industrial

Oil & Gas

Manufacturing

Food & Beverages

Pharmaceuticals

Healthcare

Others

Air Quality Monitoring System Region Outlook (Revenue, USD Million, 2014 - 2025)

North America

Europe

Asia Pacific

Latin America

Middle East & Africa

U.S.

Canada

U.K.

Germany

China

India

Japan

Brazil

Mexico

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

#Air Quality Monitoring System Market

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stone-man-warrior · 4 years ago

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March 10, 2021: 5:48 pm:

================================================

Local Conditions:

I took a walk outside in the daytime just now, it’s been more than a week since I went out for a walk in daylight, and my leg has been hurting so bad that I am unable to get more than about 300 feet from my front door.

Today just now I was able to force myself to walk to Jackpine, about 500 feet away from my front door, but was unable to go the additional 200 feet or so to the mailbox.

It’s cold, blue sky with scattered puffy clouds, absence of wind.

As I neared the place where the Offensive Monroe Surveillance Travel Trailer is situated nearby my driveway, I could hear two people at Monroe’s terror cell scurry into position saying “It’s him, let’s go”, and the two went into one of the two chicken coups that are at the 434 Jackpine address. I went slowly along my driveway and passed by the place where the Monroe terror cell has placed the camera that is pointed at my gate. At that time, I could hear some voices and activity coming from Russell Road at Strong’s terror cell 3747 Russell.

I made it to the end of the driveway, decided I could not continue to the mailbox, and turned around to come back to the house, while trying to rest my leg enough to take a few more steps to continue on my way. As soon as I turned around, that is when the new people who are suing me for the stalking order at 445 across the street came outside and got into a very big Jeep, is black with tinted windows, and they started the motor. I kept going back home a little at a time, and could hear the two Monroe’s in that chicken coup talking with the person in the big black Jeep with a electronic communication device. They also were talking with someone who was driving the Red Toyota Rav-4 that belongs to Cynthia Manning of 598 Jackpine. I stayed by my gate momentarily and that Jeep came out of 445 and went to he mailboxes, that is typical for when I want to check my mail, someone always comes down the road just at the time I am wanting to walk to get my mail, happens about 80% of the time I go get mail in the daytime, and part of the reason why it’s safer to walk at night time for me.

The Red Toyota Rav-4 came down the road while the Big Black Jeep was turning around at the cross-roads where the fork in the road is at. The Jeep lingered there for a moment as I lingered on my driveway near my gate. As the Red Rav-4 went by, that is when the two Monroe’s left the chicken coup, but did so in such a way that I was not able to see them leave the chicken coup even though I was standing about only 150 feet away.

What was happening is the two Monroe’s were orchestrating a situation for an opportunity that the Big Black Jeep and the Red Rav-4 could have a chance to run me over, as they anticipated that I would go get my mail, and be walking on the road just then.

The new people at 445 are in a position where they need to claim that they live at my house, and that I don’t live here, they need to make a “Role Reversal” situation before the court day for the fake stalking order. They need to do that in order to gain control of this Tumblr account to delete it.

I heard what sounded like two commercial jets while outside for only about ten minutes, and that is notable as there has been almost zero commercial airline travel here in more than a year. The commercial jets used to always be going north or south over the I-5 corridor, but that stopped almost completely with Corona Virus more than a year ago ... I heard two within a few minutes, but could not see them.

As I reached my front door, the sound of the train horn at Jess Way Crossing was heard, and the train almost never roles at this time of day. I did not hear the train however, I went back out to a place to listen for the actual locomotive, but could only hear the sound of the horn three times, no locomotive sounds, just the horn.

I came inside, then another loud jet airplane flew low over my house in a easterly direction, is very unusual for a big jet to go east or west here, they go north and south. I went out to see the jet since it was so very loud, but by the time I got outside to see it, it had gone out of sight beyond visibility through the trees, but was a powerful jet and was flying very low. It could have been the SAGClubMed Junket Jet, I don’t know, I always stay too optimistic that the sound of a low jet like that might be US Military here to stop the terror army.

So, that’s it, another attempt to run me over, as was performed by two people at Monroe’s terror cell, at least one person at 445 Jackpine, and at least one person driving the Cynthia Manning Rav-4 from Strong’s terror cell on Russell road to 598 Jackpine on the commands made and information provided by the two who where in the chicken coup at Monroe’s. They were inside of the coup that is known to have a lot of electronic listening device controls and video controlling equipment inside at least some of the time.

When I take a walk outside, there is a pump that begins to spin at the Monroe’s, sometimes the sound of the pump is near the water well, sometimes it’s closer to the house over there, and other times the sound of a pump whiling comes from the Monroe driveway where the A-1 Exterminators Van is parked. The Exterminator van is there now, and is the source of much of the poisons that are used to poison me with. The rash on my leg and the reason I am unable to walk to the mailbox is partly from the poisons the Monroe’s release and transport with that A-1 Exterminators Pest Control van parked at 434 Jackpine.

================

9:40 pm:

Update additional information about the Monroe/new guy/Manning terror run-down at the mailbox attempt:

Details are sketchy, and the nitrous oxide airborne gas is thick in the ambient air in the neighborhood, so, the existence of so much poison gas in the air creates a situation where memory of events is impaired, and even when you see horible things associated with a murder, the gas makes a condition where a false sense of security and well-being seems present even when there are badly injured people around, that is a condition of the nitrous gas, everything seems as if it’s OK, even the presence of an African Lion nearby, is seemingly not a safety threat, judgment is impaired, making life saving decisions is not part of exposure to nitrous oxide poison gas. The gas becomes poison when people are not made aware of it’s presence, and the gas is introduced into dangerous circumstances intentionally by the terror army, who are aware of the gas, which direction it will blow, and how much of it has been released.

The update is that Safari terror cell had brought African Lions, and the information I have is that the Lions were put inside of the Myers residence at 560 Jackpine.

Other information I have is that there was a set-up for a rape or other similar kind of set-up and I was the mark to be set-up.

It turns out that Nancy Wilson (who was at the Pain Specialists of Southern Oregon on the day of my appointment, with Sarah Palin) has come to do the set-up, but Palin was killed that day at the pain center. So, the information I have is Wilson was working the others mentioned and also with Susana Dietrick of 601 Jackpine.

Susana was wondering around in my front yard when I took that walk earlier, she was carrying the Monroe’s Siamese cat around the yard. I saw some movement and lit my Bic Lighter, and Susana’s nitrous tank ignited, and she launched to the corner where the Big Black Jeep had gone to, It turns out that the reason the Jeep went that way was to go retrieve Susana Dietrick from the front yard at 520 Jackpine where she landed after launching away from my driveway area.

It also turns out, that moments before I had stepped outside to take that walk, Nancy Wilson had been told bad information, or for some other reason, Wilson walked into the Myers terror cell at 560 where the Safari African Lions were in the living room there.

I heard the recording that the Monroe’s made from that Chicken coup where the electronic surveillance controls are at.

I heard people advise Wilson not to go in there, but she went in there anyway.

I heard the sound of the African Lions moments before I had gone out for that walk, and the sound of the roaring is why I decided to take a walk in the daytime, against my better judgment. The Myers terror cell is only two houses away, that house is only about 700 feet from (terror bastards are hijacking the computer) my front door. (it’s impossible to simply say what I need to say, the bastards prevent my letter “M” from working)

Bottom line is Nancy Wilson was eaten by the Safari terror cell African Lions, and Susana Dietrick launched away. and presumably was taken away by that Big Black Jeep with the tinted windows at 445 Jackpine where the “new guy” moved in a couple of weeks ago. The people there would have taken Susana to a place to get medical treatment, but probably not at the hospital, there are underground facilities at terror residences for terror soldiers to get treatment.

(I cannot write without a the letter between L and n. Please get the terror bastards out of the co_puter, they are on Jackpine at 600, Francis Taylor terror cell with Centurylink equip_ent.)

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cloudeo · 4 years ago

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How to meet researchers constant need of high-quality geospatial data

By bringing together maps, apps, data, and people, geospatial information allows everyone to make more informed decisions. By linking science with action, geospatial information enables institutes, universities, researchers, governments, industries, NGOs, and companies worldwide to innovate in planning and analysis, operations, field data collection, asset management, public engagement, simulations, and much more.

Areas of Engagement

Researchers use spatial information to trace urban growth patterns, access to mobility and transportation networks, analyze the impact of climate change on human settlements, and more. When spatial datasets are linked with non-spatial data, they become even more useful for developing applications that can make a difference. For instance, geospatial data coupled with land administration and tenure data can significantly impact urban planning and development by the landowners.

For example, a recent project by the Government of India, 'The Swamitva Project,' uses geospatial data to provide an integrated property validation solution for rural India. 'Swamitva,' which stands for Survey of Villages and Mapping with Improvised Technology in Village Areas, uses Drone Surveying technology and Continuously Operating Reference Station (CORS) technology for mapping the villages. The project aims to provide the 'record of rights' to village household owners, possessing houses in inhabited rural areas in towns, which would enable them to use their property as a financial asset for taking loans and other financial benefits from banks. The project stands to empower the rural peoples of India

Geospatial is also playing a crucial role in disaster management. By deploying geospatial data for all disaster management phases, including prevention, mitigation, preparedness, vulnerability reduction, response, and relief, significant disaster risk reduction and management can be achieved.

We all are aware that when a hail storm strikes, the damage can be catastrophic. In fact, with damage totals sometimes exceeding USD 1 billion, hailstorms are the costliest severe storm hazard for the insurance industry, making reliable, long-term data necessary to estimate insured damages and assess extreme loss risks.

That's why a team of NASA scientists is currently working with international partners to use satellite data to detect hailstorms, hail damage, and predict patterns in hail frequency. This project will provide long-term regional- to global-scale maps of severe storm occurrence, catastrophe models, and new methods to improve these storms' short-term forecasting.

"We're using data from many satellite sensors to dig in and understand when and where hailstorms are likely to occur and the widespread damage that they can cause," shares Kristopher Bedka, principal investigator at NASA's Langley Research Center in Hampton, Virginia. "This is a first-of-its-kind project, and we're beginning to show how useful this satellite data can be to the reinsurance industry, forecasters, researchers, and many other stakeholders."

Climate change is another area where research based on geospatial data is of extreme importance. The geospatial analysis not only provides visual proof of the harsh weather conditions, melting polar ice caps, dying corals, and vanishing islands, but also links all kinds of physical, biological, and socioeconomic data in a way that helps us understand what was, what is, and what could be. For instance, air quality is a public health issue that requires ongoing monitoring. Not only does air quality data provide information that can protect residents, but it also helps to monitor the overall safety of a geographic area. NASA uses satellites to collect air quality data on an ongoing basis. The satellites can evaluate air quality conditions near real-time and observe different layers and effects that may coincide.

Satellite data can reveal information like the aerosol index and aerosol depth (which indicates the extent to which aerosols are absorbing light and affecting visibility) in any given area. Other types of data that satellites collect include levels of carbon monoxide, nitrous oxide, nitric acid, sulphur dioxide, fires, and dust.

Near real-time data helps to warn residents of low air quality. It can also be used to determine how climate change impacts a geographic area and guides new infrastructure design with climate change in mind.

Thus, there is hardly any living area where geospatial data or location intelligence cannot significantly impact. The more one engages in geospatial research, the more fascinating the journey of discovery becomes.

COVID-19 and Geospatial Research

The current pandemic has made each one of us realize the importance of geospatial data all the more. Be it identifying the hotspots, taking corrective measures sooner, and curbing the spread of the virus. Geospatial research has enabled the authorities to make headway more effectively in all spheres.

The location has been the answer to most of the problems. Thus more and more companies are now engaging in the development of apps that can help trace the virus and help businesses and individuals recover faster. Accordingly, researchers are increasingly engaging in projects that could bring such significant geospatial products to life soon.

Research bottlenecks due to COVID

Projects that aim to harness location intelligence's power have high-end hardware, software, and data requirements. Researchers typically have a high-end infrastructure at their disposal. These systems are placed either in their workplace or the universities where they are pursuing their research projects. These research hubs are also their gateway to highly accurate geospatial data. In regular times, they do not need to look anywhere else. However, the scenario is completely changed due to the pandemic. With the universities remaining closed for a long time, researchers are more dependent on the online availability of good quality infrastructure and data. As a result, platforms providing Data as a Service (DaaS), Software as a Service (SaaS), Infrastructure as a Service (IaaS) solutions are becoming popular among the research community.

Meeting hardware requirements

Lockdown and closure of educational institutions have brought researchers face-to-face with the lack of high-end infrastructure required for processing geospatial data. In such a scenario, researchers rely more and more on platforms that can provide the convenience of Infrastructure as a Service (IaaS).

Hardware is becoming less and less essential in the age of cloud computing. Cloudeo's Infrastructure as a Service (IaaS) solutions can help the researchers streamline their hardware requirements, save costs, and increase their research work efficiency. With Cloudeo's Infrastructure as a Service, a researcher needs to pay only for what they need. This helps in minimizing investment in local infrastructure. They can also quickly and dynamically adapt the processing power or storage they need, spreading big processing jobs over many cores. This is something that they might not accomplish (or afford) with their physical hardware. Also, while using this service, all the data gets backed up securely in the cloud and remains protected from unexpected critical hardware failures.

Meeting geospatial data requirements

Researchers need access to platforms that can provide high-quality geospatial data from multiple sources at a low cost. Cloudeo's DaaS is emerging as an increasingly popular solution among the researchers for accessing highly valuable data from various sources, like suppliers of spaceborne, airborne, and UAV imagery and data. It's a cost-effective solution as the users do not have to buy permanent licenses for EO data integration, management, storage, and analytics. Data as a service is especially advantageous for short-term projects, where long-term or permanent licenses and data purchases can become cost-prohibitive.

Over the past few years, more and more Earth Observation (EO) data, software applications, and IT services have become available from an increasing number of EO exploitation platform providers – funded by the European Commission, ESA, other public agencies, and private investment.

For instance, ESA's Network of Resources (NoR) supports users in procuring services and outsourcing requirements while increasing uptake of EO data and information for broader scientific, social, and economic purposes. The goal is to support the next generation of commercial applications and services.

Cloudeo acts as the NoR Operator, together with its consortium partners RHEA Group and BHO Legal, by managing service providers' onboarding into the NoR Portal. The portal is a compilation of the NoR Service Portfolio, listing services on the NoR Portal, promoting the NoR services worldwide, and procuring such services for commercial users and ESA sponsorship.

Through NoR, cloudeo plays a vital role in improving and supporting education, research, and science. It is promoting community building by enabling collaboration between all stakeholders.

Research is crucial for the growth of an economy. As businesses mostly realize the importance of integrating geospatial with everyday affairs, research in the field of geospatial is gaining momentum. Accordingly, the need for access to high-quality geospatial data is also increasing. While most universities are equipped to meet these researchers' needs in regular times, with the current lockdowns and closure of institutions, the researchers are relying on robust, accurate online platforms that can meet their hardware, software, and geospatial data requirements. Cloudeo is one such reliable platform for accessing geospatial data from disparate sources. It can also complete the infrastructure requirements of researchers effectively. By bringing in all the data creators, data processors, and data users and solution/app developers onto one platform, cloudeo is creating the most user-friendly geospatial solutions marketplace to meet the infrastructure, software, and data needs of researchers.

Explore cloudeo today and take an essential step towards excelling in your research and academic endeavors. No one can tell you about everything spatial so accurately!

#geospatial #remote sensing #gis #earth observation satellite #satellite imagery

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instanttimetravelnut · 5 years ago

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Increasing Consumer Adoption to Fuel Demand for Silicon Photonics Market

Silicon photonics refers to the application of photonic systems using silicon as an optical medium. The silicon material used in such photonic systems is designed with sub micrometer precision and is deployed into the microphotonic components. The silicon photonics systems works at the wavelength of 1.55 micrometer that falls under the infrared spectrum and is most commonly used for optical communications. Silicon photonics combines technologies such as complementary metal oxide semiconductor (CMOS), micro-electro-mechanical systems (MEMS) and 3D Stacking. The basic operation of silicon photonics includes the transfer of data as optical rays between the computer chips. Silicon photonics is basically an approach for designing optical devices using silicon and use photons to transfer enormous data at high speeds. Additionally, this technology enables data transfer at low power consumption over an optical fiber. Moreover, silicon photonics satisfies the mounting need of high data transfer rate and enhances the capabilities such as computational and processing needs of data centers.

Pressing bandwidth, cloud computing performance needs for data centers, virtualization, fast-growing internet traffic and other intensive data are the key factors driving the growth of silicon photonics market. Silicon photonics are majorly used in telecom, datacom, consumer applications (connecting laptops, PCs, HDTVs), datacenters and high performance computers, commercial video, metrology and sensors, medical, military and aerospace. Data communication is one of the major market share holders and it dwarfs all other silicon photonics application. In addition, features such as low environmental footprint, low heating of components, low operating cost, high optical functions integration, high density of interconnects, low error rate and spectral efficiency are adding value to the silicon photonics products. Thus, these factors are expected to drive the market of silicon photonics in the coming years. However, the major challenges such as technical mismatches with high volume markets and availability of substitute technologies such as vertical-cavity surface-emitting laser (VCSEL) are expected to hinder the growth of silicon photonics market.

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The silicon photonics based systems deploy several components such as wavelength division multiplexer filters, optical modulators, optical interconnects, silicon photonic waveguides, silicon LED's and silicon photo-detectors. The silicon photonics systems exhibits physical properties such as optical guiding and dispersion tailoring, Kerr non-linearity, two-photon absorption, free charge carrier interaction, second order non-linearity and the Raman effect. These properties govern the propagation of light through an optical medium. Silicon photonics technology is used for providing optical interconnects, optical routing and signal processing. Moreover, with technological advancement it is expected that this technology will widely be deployed for long range communication applications over the coming years. Silicon phonics finds its applications in several industries such telecommunications, IT, sensing and metrology, healthcare, consumer electronics and displays, and research and development.

Countries with high level of technology adoption and advancement across North America and Europe are the leading markets for silicon photonics. Moreover, Asia Pacific market is expected to witness rapid technological upgrades and thus serves as an opportunity for this market in the coming years. The ongoing use of silicon for developing integrated circuits and the compatibility of silicon photonics technology with the existing fabrication techniques encourages several research institutes and large players in the electronic manufacturing industry to adopt silicon photonics technology. Leading players in silicon photonics market are Luxtera, Molex Inc., Mellanox Technologies, Northrop Grumman, Global Foundries, Altis, Texas Instruments, BAE Systems, TSMC, Avago Technologies, LightWire, Intel, Teraxion, Infinera, Color Chip, Fujitsu, Cisco, HP, IBM, NTT, Oracle, Leti, imec, ePIXfab, Scorpios Technologies, Caliopa and Aurrion among others.

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#Silicon Photonics Market

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itswallstreetpr · 5 years ago

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Virus Protection as an Investment Opportunity (CLX, HON, BLGO, MMM)

As we start to gain more ground in our collective battle against the COVID-19 pandemic, the role of personal protection equipment and supplies looms large as a major concept for investors active with capital and willing to mobilize that capital toward companies able to make a difference while delivering value to their shareholders. While we seem to be rapidly progressing along the path of beating this bug, experts suggest that resources geared toward protection and disinfection will likely play an outsized role for an extended period as businesses strive to present a virus-free picture to patrons during the gradual and prolonged “reopening” process in front of us. That suggests expectations from analysts will continued to favor outperformance from companies positioned to thrive on these factors at least through the end of 2020. In addition, as we start to see returning confidence, the threat will loom of a revitalization of concerns about a second wave of lockdowns in reaction to a new spike in COVID-19 cases. That casts a clear spotlight on stocks in the PPE space as “go-to” hedges on any scares. Given that framework, some degree of exposure to these stocks is likely to persist until we have a very strong vaccine in place, which could be well into 2021. We present four interesting options for PPE allocations here, including: Clorox Co (NYSE:CLX), Honeywell International Inc. (NYSE:HON), BioLargo, Inc. (OTCMKTS:BLGO), and 3M Co (NYSE:MMM). Clorox Co (NYSE:CLX) bills itself as a company that manufactures and markets consumer and professional products worldwide. We know that viral threats are neutralized by bleach, so the stock has been red hot over the past two months as investors flock to the branded leading source. CLX operates through four segments: Cleaning, Household, Lifestyle, and International. The company offers laundry additives, including bleach products under the Clorox brand, as well as Clorox 2 stain fighter and color booster; home care products primarily under the Clorox, Formula 409, Liquid-Plumr, Pine-Sol, S.O.S, and Tilex brands; naturally derived products under the Green Works brand; and professional cleaning, disinfecting, and food service products under the CloroxPro, Dispatch, Clorox Healthcare, Hidden Valley, and KC Masterpiece brands. It also provides charcoal products under the Kingsford and Match Light brands; bags, wraps, and containers under the Glad brand; cat litter products under the Fresh Step, Scoop Away, and Ever Clean brands; and digestive health products under the RenewLife brand. In addition, the company offers dressings and sauces primarily under the Hidden Valley, KC Masterpiece, Kingsford, and Soy Vay brands; water-filtration systems and filters under the Brita brand; natural personal care products under the Burt’s Bees brand; and dietary supplements under the Rainbow Light, Natural Vitality, and Neocell brands. Further, it markets its products under the PinoLuz, Ayudin, Limpido, Clorinda, Poett, Mistolin, Lestoil, Bon Bril, Agua Jane, and Chux brands. The company sells its products primarily through mass retailers, grocery outlets, warehouse clubs, dollar stores, home hardware centers, third-party and owned e-commerce channels, military stores, and distributors, as well as a direct sales force and medical supply distributors. CLX hasn’t really done much of anything over the past week, with shares logging no net movement over that period. Shares of the stock have powered higher over the past month, rallying roughly 7% in that time on strong overall action. Clorox Co (NYSE:CLX) generated sales of $1.8B, according to information released in the company’s most recent quarterly financial report. That adds up to a sequential quarter-over-quarter growth rate of 23.1% on the top line. In addition, the company is battling some balance sheet hurdles, with cash levels struggling to keep up with current liabilities ($496M against $1.8B, respectively). Honeywell International Inc. (NYSE:HON) bills itself as a company that operates as a diversified technology and manufacturing company worldwide. HON is also a major source of PPE on an international basis. The Aerospace segment offers auxiliary power units, propulsion engines, integrated avionics, environmental control and electric power systems, engine controls, flight safety, communications, navigation hardware, data and software applications, radar and surveillance systems, aircraft lighting, advanced systems and instruments, satellite and space components, and aircraft wheels and brakes; spare parts; repair, overhaul, and maintenance services; thermal systems; and connected solutions and data services for the aftermarket, as well as wireless connectivity, and management and technical services. The company’s Honeywell Building Technologies segment offers advanced software applications for building control and optimization; sensors, switches, control systems and instruments for energy management; access control; video surveillance; fire products; remote patient monitoring systems; e-cooling heat transfer agents; and installation, maintenance, and upgrades of systems. Its Performance Materials and Technologies segment offers automation control, instrumentation, and advanced software and related services; catalysts and adsorbents, equipment, and consulting; and materials used to manufacture end products, such as bullet-resistant armor, nylon, computer chips, and pharmaceutical packaging, as well as Honeywell forge connected solutions. The company’s Safety and Productivity Solutions segment provides personal protection equipment, apparel, gear, and footwear; gas detection technology; and cloud-based notification and emergency messaging; and mobile devices and software; supply chain and warehouse automation equipment, and software and solutions; custom-engineered sensors, switches, and controls; and software-based data and asset management productivity solutions. The context here for the stock is a bit of a bid, with shares acting well over the past five days, up about 13% in that timeframe. Shares of the stock have powered higher over the past month, rallying roughly 4% in that time on strong overall action. Honeywell International Inc. (NYSE:HON) managed to rope in revenues totaling $8.5B in overall sales during the company’s most recently reported quarterly financial data — a figure that represents a rate of top line growth of -4.7%, as compared to year-ago data in comparable terms. In addition, the company is battling some balance sheet hurdles, with cash levels struggling to keep up with current liabilities ($8.8B against $17.4B, respectively). BioLargo, Inc. (OTCMKTS:BLGO) is a more speculative stock on this list. But we include it here because it is quickly developing a reputation as an innovator in this battle, with a new product (produced by a subsidiary) that allows for 100% effective cleansing of N95 masks while they are being worn. Given the shortage of masks among healthcare workers and frontline responders, this development is a possible game-changer that could have major implications for share prices. Hence, it deserves a strong mention here. BioLargo, Inc. (OTCMKTS:BLGO) focuses on unique disruptive solutions to deliver clean air, clean water and a clean, safe environment (www.biolargo.com). BLGO has a deep and expansive R&D facet, with collaborations that read like a who’s who list of top teams, including UCLA, Shell Co, Suncor, Total, Epcor, NWRI, EREF, and a substantial list of top north American universities in the US and Canada. The company’s engineering division features experienced professional engineers dedicated to integrity, reliability, and environmental stewardship (www.biolargoengineering.com). Its industrial odor control division, Odor-No-More (www.odornomore.com) features CupriDyne Clean Industrial Odor Eliminator (www.cupridyne.com), which eliminates the odor-causing compounds and VOCs rather than masking them, and is now winning over leading companies in the solid waste handling and wastewater industries and other industries that contend with malodors and VOCs. BLGO’s subsidiary, BioLargo Water (www.biolargowater.ca), develops the Advanced Oxidation System “AOS,” a disruptive industrial water treatment technology designed to eliminate waterborne pathogens and recalcitrant contaminants with better energy-efficiency and lower operational costs than incumbent technologies. And its subsidiary, Clyra Medical features effective and gentle solutions for chronic infected wounds to promote infection control and regenerative tissue therapy. BLGO shares have been relatively flat over the past couple weeks, but up sharply on a slightly wider view as the stock has broken above some key resistance after releasing more information about its iodine-based disinfectant solution. BioLargo, Inc. (OTCMKTS:BLGO) managed to rope in revenues totaling $537K in overall sales during the company’s most recently reported quarterly financial data — a figure that represents a rate of top line growth of 22.3%, as compared to year-ago data in comparable terms. In addition, the company is battling some balance sheet hurdles, with cash levels struggling to keep up with current liabilities ($655K against $4.4M, respectively). 3M Co (NYSE:MMM) frames itself as a company that develops, manufactures, and markets various products worldwide. It operates through four business segments: Safety & Industrial, Transportation & Electronics, Health Care, and Consumer. The Safety & Industrial segment offers personal safety products, adhesives and tapes, abrasives, closure and masking systems, electrical markets, automotive aftermarket, and roofing granules. The Transportation & Electronics provides electronics, such as display materials and systems, electronic materials solutions; automotive, aerospace, and commercial solutions; advanced materials; and transportation safety products. This segment serves transportation and electronic original equipment manufacturer customers. The Health Care segment offers medical solutions, oral care, separation and purification sciences, health information systems, drug delivery systems, and food safety products. The Consumer segment provides home improvement, home care, and consumer health care products, as well as stationery and office supplies. This segment is also involved in the retail auto care business. The company serves automotive, electronics and automotive electrification, appliance, paper and printing, packaging, food and beverage, construction, medical clinics and hospitals, pharmaceuticals, dental and orthodontic practitioners, health information systems, food manufacturing and testing, consumer and office retail, office business to business, home improvement, drug and pharmacy retail, and other markets. And the stock has been acting well over recent days, up something like 7% in that time. 3M Co (NYSE:MMM) pulled in sales of $8.1B in its last reported quarterly financials, representing top line growth of 2.7%. In addition, the company is battling some balance sheet hurdles, with cash levels struggling to keep up with current liabilities ($4.5B against $9.1B, respectively). Read the full article

#Coronavirus #COVID-19 #NYSE #Stocks #Vaccine #Virus

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ledfulgroup · 5 years ago

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Outdoor Commercial Advertising LED Display

OF4 | OF5 | OF6 | OF8 | OF10S | OF10D | OF16S

Energy saving to save cost

Front maintenance to save space

Wifi, 4G, cloud, usb, remote control

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* Specifications and photos are subject to change without prior notice.

Where is LED display installed?

LEDFUL provide structure frame design drawing and installation suggestions.

Pillar / Pole LED display

Wall mounted LED display

How to control LED display?

By computer, wifi, 4G, usb, remote, internet, mobile, pad, etc. Yes, you can control in your convenient management. Many screens together? No problem, your laptop can manage all of them whenever and wherever.

How to control LED display?

Ultra High / Low Temperature

OF series design for working in all weather outdoor environments. High protection grade of IP65 suitable for winter and cold areas like North European countries and Russia, and high temperature like KSA, Oman, UAE, etc.

High Temperature

Low Temperature

SMD Performance and View Angle

Better contrast ratio and viewing performance Wide viewing angle increasing its value by covering more viewing

SMD Performance and View Angle

High Brightness & Auto Brightness

High bright and contrast ratio to make vivid color facing to the Sunlight.

Auto brightness saving energy besides protecting people eyes in night time.

High Brightness & Auto Brightness

Various Shaped LED Display

Cylinder LED display, Curved LED display, 90 degrees LED display, Round LED display, LED ball, etc.

LEDFUL supply more design and more solutions.

Various Shaped LED Display

How can we make Energy Saving LED display 30%?

1) Using high efficiency IC driver

2) improved PCB design

3) Power conversion efficiency

How can we make Energy Saving LED display 30%?

OF Series More Features & More Advantages

3 times aging process

Salty spray test, high voltage test, varying temperature test, waterproof test, vibration test

Long service time and low attenuation by applying dual channels for heat dissipation

High protection grade of IP65 achieved by patented mask design with waterproof and dustproof function

No deformation under sunlight by the use of Anti-UV module mask, Anti-Oxidation module frame with protection from deformation

https://www.ledful.com/led-display/of-series-commercial-advertising-led-display/

#pole #LED #display

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jobsearchtips02 · 6 years ago

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16 Defence Startups Selected By CRPF-Startup India Grand Challenge

The selected startups will be providing innovative solutions in developing effective utilisation of UAV, controlling blood loss and more

Through this programme, CRPF will be looking at addressing critical issues that are hampering the growth of the security sector

Some of the startups include Eklavya Aero Sports, Red Carbon Techno Hub and more

Central Reserve Police Force (CRPF) in collaboration with Startup India, on Tuesday (December 23), shortlisted 16 startups for a demo day to solve the core challenges in the security sector — shoes against spikes, controlling blood loss and effective utilisation of Unmanned Aerial Vehicles (UAVs).

The news surfaced after Startup India tweeted about the shortlisted startups showcasing the demos, where they were addressing the essential problems of the security forces.

Demos being conducted for 16 shortlisted #startups under the Startup India CRPF Grand Challenge across 3 problem statements – shoes against spikes, controlling blood loss and effective utilisation of UAVs. @crpfindia @PMOIndia @HMOIndia pic.twitter.com/lwnuVq5jXt

— Startup India (@startupindia) December 24, 2019

CRPF in a press statement said that they are searching for new concepts and ideas in the areas identified. Through this program, the CRPF is looking at addressing critical issues that are hampering the growth of the security sector in the country.

Most importantly, the programme provides a unique opportunity to identify startups and individual innovators in the security landscape that are offering commercially viable products or solutions to address the key challenges in the security forces.

CRPF Shortlisted Startups

The shortlisted startups were divided into three categories based on the challenges that it was addressing.

Startups that provide effective utilisation of remotely piloted aircraft system (RPAS)/UAVs against insurgents.

Startups that develop lightweight, sterile haemostatic agents, drugs, equipment, badges to control excessive bleeding loss.

Startups that develop terrain agnostic shoes to protect against hidden iron/bamboo made spikes causing fatal injuries to troops.

Eklavya Aero Sports: Pune-based aerotech startup Eklavya Aero Sports was founded in 2014 by Ajit Sapre. The company offers training solutions and sales services of aeromodelling equipment and kits, including quad, hexa and octa-copters.

Optimized Electrotech: Founded in 2017, Ahmedabad-based Optimized Electrotech is a defence startup that produces Indigenously Designed, Developed and Manufactured (IDDM) surveillance systems to security forces, national defence and aerospace companies. The company was started by Anil Yekkala, Dharin Shah, Kuldeep Saxena, Purvi Shah and Sandeep Shah.

LUMBOBEE: Incepted in 2013, LUMOBEE was started by Deepali Bhardwaj. The company provides software products and technology. The company builds customised solutions to commercial, government and social enterprises, where it helps them leverage the power of technology like Cloud, Mobility, internet of things (IoT) and machine learning (ML).

Visionbot.io: Bengaluru-based Visionbot.io was started by Amit C. and Santhosh Nair in 2018. The company helps customer implement data-driven practices across various industry verticles. It leverages the power of computer vision and artificial intelligence (AI) to extract objective analyzable data from subjective visuals.

Innovative Software Solutions: Founded in 2004, Chennai-based Innovative Software Solutions was founded by Liberatus Rozario, Sathya Saravanan, Dalia Parveen Chowdhury and Muralee Krushnaa. The company offers software solutions to companies across industries.

Flatonomers: Kerala-based Flatonomers was founded in 2018 by Aswin L Shetty, Manjunath Bhandary, Probid J Panikkan, Mindhun Jyothis. The company offers drone technology solutions for industrial, environmental and agriculture sectors.

Aiotize Private: Founded in 2018, Chandigarh-based Aiotize was started by Shivansh Sethi. The company manufactures unmanned aircraft systems to business and government, worldwide.

Techraion Systemworks: Founded by Ankush Rai and Abhishek Rai in 2018. The company works towards developing AI-based dense projects and software.

Asteria Aerospace: Reliance Industries-backed Asteria Aerospace was founded in 2011. The company was cofounded by Nihar Vartak and Neel Mehta. It is a robotics and artificial intelligence startup that provides drone-based solutions that offer actionable intelligence from aerial data.

Sagar Defence Engineering: Mumbai-based Sagar Defence Engineering was founded in 2015 by Mridul Babbar and Lakshay Dang. The company provides innovative and efficient unmanned systems solutions in commercial defence and scientific sector.

Dcygnus Automates: Founded in 2017, Mumbai-based Dcygnus Automates was started by Sunanda Rasal and Suyog Rasal. The company offers embedded system designs, specifically used for industrial automation.

Red Carbon Techno Hub: Based in Mumbai, Red Carbon Techno Hub is a nanotech startup that manufacturers nanomaterials like nanocarbons, nanopolymers, nanocomposites, metal and metal oxide nanoparticles, graphene among others. The company is known for developing novel prototypes for startups, government and institutes. The founders of Red Carbon Techno Hub are Anil Reddy, Sushil Ghorpade and Prasen Vinchurkar.

Bharat Wire Mesh: Jammu & Kashmir-based Bharat Wire Mesh was founded in 2012 by Ashish Gupta and Mohit Gupta. The company manufactures wire products like welded wire mesh, woven wire mesh, wire crate, portable gabion system, modular gabion system and more. It offers services to some of the biggest names in construction, defence, flood control and civil engineering sectors.

Axio Biosolutions: Bengaluru-based Axio was started in 2008 by Leo Mavely. The company is focused on advanced wound and trauma care using biomaterials.

Zywie Pharmaceuticals: Hyderabad-based Zywie was founded in 2014 by Mohit Gupta and Udaya Kiran Reddy Boorgula. The company manufactures imports and exports medical textile products with specialisation in compression bandages and absorbent cotton.

Bioscan Research: Founded in 2013, Ahmedabad-based Bioscan Research was started by Shilpa Malik and Anupam Lavania. The company specialises in screening and monitoring medical device design and development for early detection of diseases.

Salvar Vidas Health: Founded in 2018, Salvar Vidas Health was started by Siddhartha Chakraborty and Soumyabrata Moitra.

EnviroChem Services: Founded in 2016, EnviroChem Services was started by Sameer Kumar Dohare. The company provides quality management, design, manufacturing, fabrication in the field of environment, industrial, production, construction, chemical and mechanical engineering.

Lopulent Indutries: Bengaluru-based Lopulent was founded in 2018 by Ravi Kanth. The company is specialised in manufacturing carbon fibre composites.

PupilMesh: PupilMesh is an augmented reality (AR) startup incubated at NSRCEL, IIM Bangalore. The company was founded by Pradeep Parthasarathy and Milind Muraleedharan Manoj. It specialises in investigating and implementing innovative solutions with technologies like AR, computer vision and IoT.

The list also includes Impact Profile which solved problems for the question around effective utilisation of remotely piloted aircraft system (RPAS)/UAVs against insurgents.

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from Job Search Tips https://jobsearchtips.net/16-defence-startups-selected-by-crpf-startup-india-grand-challenge/

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blueweave8 · 3 years ago

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Saudi Arabia Electric Cars Market Trends, Growth, Forecast 2022-2028

Request for Sample Report @ https://www.blueweaveconsulting.com/report/saudi-arabia-electric-cars-market/report-sample

Saudi Arabia is setting up its first electric vehicle manufacturing plant in the country with Lucid. The government has planned to ensure 30% of all vehicles in the capital city. Lucid has announced plans to invest in developing the advanced electric car manufacturing industry to address the growing demand for electric cars. However, the Saudi Arabia Electric Cars Market was negatively impacted by the unprecedented COVID-19 pandemic outbreak. The complete lockdown imposed by the Saudi Arabian government affected all the industries in the market. This resulted in huge losses to the overall market. Furthermore, the declining purchasing power of consumers and halting of charging point infrastructure establishing activities also hindered the growth of the Saudi Arabia Electric Cars Market.

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priyanka16me · 6 years ago

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Fiber Optic Cable Materials Market to Perceive Substantial Growth by the End 2024

Global Fiber Optic Cable Materials Market: Overview

Fiber optic cables are used for digital transmission of data, as they are hardly affected by internal and external interferences. Fiber optic cable can be made of high quality glass (silica) or plastics. Fiber optics cable materials cover a range of applications such as communication, fiber optic sensors, illumination, and medical. Fiber optic cable comprises a core, which is surrounded by a cladding. The core and cladding are generally fused silica glass, which is covered by plastic coating that protects the glass fiber from harsh environments such as moisture and chemicals. Fiber optic cable made of glass is used widely in communication applications. In single mode fiber optic cable, there is only one path for light take down the cable and in multimode, there is more than one path. Compared to metal wires, fiber optic cables have advantages such as broad bandwidth (completely independent of the cable size), electrical insulator, immunity to electromagnetic interference, low induced noise and cross talks, and low attenuation loss over long distances.

Get Research Report Overview @ https://www.transparencymarketresearch.com/fiber-optic-cable-materials-market.html

Global Fiber Optic Cable Materials Market: Drivers

Rise in demand from the communication sector is driving the global fiber optic cable materials market. Demand for applications such as telecom as well as sensors has been rising. This is anticipated to propel the fiber optic cable materials market in the near future. Increase in awareness about data security during transmission is the key driver of the fiber optic cable materials market. Furthermore, rise in demand for internet is boosting the fiber optic cable materials market. Growth in applications such as cloud computing, data storage, and Internet of Things can also be considered key driver of the fiber optics cable materials market. Advancements in technology and growth in demand for Internet are potential opportunities identified in the fiber optic cable materials market.

Global Fiber Optic Cable Materials Market: Key Segments

Based on type, the fiber optic cable materials market can be classified into glass, plastic, fluoride, and phosphates. Materials used for commercialized fiber optic cables include glass or silicone oxide, plastic, or combination of both. Plastic optical fibers have the advantage of being made of cheaper materials than glass. They can also be operated in a visible range of the electromagnetic spectrum. The buffer tube of the fiber optic cable is made either of silicon or epoxy resin. Polyurethane can be added for the cushioning purposes. As an external protective layer, PVC and polyurethane can be used. In terms of end-use application, fiber optic cable materials market can be segmented into electronics & communication (telecom, television, broadband, and data networks), commercial (buildings, premises, offices, etc.), defense, and health care.

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The global fiber optic cable materials market witnessed strong growth in 2017. This trend is estimated to continue during the forecast period. North America and Europe are the key regions expected to exhibit significant growth owing to the rise in demand from metrology, power transmission, electronic automation, data transmission and defense sectors. Asia Pacific is estimated to exhibit relatively high growth in the near future; China is the key consumer of fiber optic cable materials market. Countries such as Japan, South Korea, Taiwan, and Singapore are also contributing significantly to the global fiber optic cable materials market. Increase in awareness about the health care sector is anticipated to offer lucrative growth opportunities for Latin America and Middle East & Africa.

Global Fiber Optic Cable Materials Market: Key Players

Key players operating in the global Fiber Optic Cable Materials Market include Shin-Etsu Chemical, Molex, SCHOTT AG, and Draka.

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inhandnetworks-blog · 6 years ago

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Curiosity Rover Provides First Confirmation of a Mineral Mapp industrial cellular modem3g modem ed from Orbit

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This image shows the first holes drilled by NASA’s Mars rover Curiosity at Mount Sharp. The loose material near the drill holes is drill tailings and an accumulation of dust that slid down the rock during drilling. Image Credit: NASA/JPL-Caltech/MSSS

A sample of powdered rock extracted by the Curiosity rover’s drill from the “Confidence Hills” target has provided NASA scientists with the first confirmation of a mineral mapped from orbit.

“This connects us with the mineral identifications from orbit, which can now help guide our investigations as we climb the slope and test hypotheses derived from the orbital mapping,” said Curiosity Project Scientist John Grotzinger, of the California Institute of Technology in Pasadena.

Curiosity collected the powder by drilling into a rock out iiot crop at the base of Mount Sharp in late September. The robotic arm delivered a pinch of the sample to the Chemistry and Mineralogy (CheMin) instrument inside the rover. This sample, from a target called “Confidence Hills” within the “Pahrump Hills” outcrop, contained much more hematite than any rock or soil sample previously analyzed by CheMin during the two-year-old mission. Hematite is an iron-oxide mineral that gives clues about ancient environmental conditions from when it formed.

In observations reported in 2010, before selection of Curiosity’s landing site, a mineral-mapping instrument on NASA’s Mars Reconnaissance Orbiter provided evidence of hematite in the geological unit that includes the Pahrump Hills outcrop. The landing site is inside Gale Crater, an impact basin about 96 miles (154 kilometers) in diameter with the layered Mount Sharp rising about three miles (five kilometers) high in the center.

“We’ve reached the part of the crater where we have the mineralogical information that was important in selection of Gale Crater as the landing site,” said Ralph Milliken of Brown University, Providence, Rhode Island. He is a member of Curiosity’s science team and was lead author of that 2010 report in Geophysical Research Letters identifying minerals based on observations of lower Mount Sharp by the orbiter’s Compact Reconnaissance Imaging Spectrometer for Mars (CRISM). “We’re Industrial IoT Router/Gateway now on a path where the orbital data can help us predict what minerals we’ll find and make good choices about where to drill. Analyses like these will help us place rover-scale observations into the broader geologic history of Gale that we see from orbital data.”

Much of Curiosity’s first year on Mars was spent investigating outcrops in a low area of Gale Crater called “Yellowknife Bay,” near the spot where the rover landed. The rover found an ancient lakebed. Rocks there held evidence of wet environmental conditions billions of years ago that offered ingredients and an energy source favorable for microbial life, if Mars ever had microbes. Clay minerals of interest in those rocks at Yellowknife Bay had not been detected from orbit, possibly due to dust coatings that interfere with CRISM’s view of them.

The rover spent much of the mission’s second year driving from Yellowknife Bay to the base of Mount Sharp. The hematite found in the first sample from the mountain tells about environmental conditions different from the conditions recorded in the rocks of Yellowknife Bay. The rock material interacted with water and atmosphere to become more oxidized.

The rocks analyzed earlier also contain iron-oxide minerals, mostly magnetite. One way to form hematite is to put magnetite in oxidizing conditions. The latest sample has about eight percent hematite and four percent magnetite. The drilled rocks at Yellowknife Bay and on the way to Mount Sharp contain at most about one percent hematite and much higher amounts of magnetite.

“There’s more oxidation involved in the new sample,” said CheMin Deputy Principal Investigator David Vaniman of the Planetary Science Institute in Tucson, Arizona.

The sample is only partially oxidized, and preservation of magnetite and olivine indicates a gradient of oxidation levels. That gradient could have provided a chemical energy source for microbes.

The Pahrump HIlls outcrop includes multiple layers uphill from its lowest layer, where the Confidence Hills sample was drilled. The layers vary in texture and may also vary in concentrations of hematite and other minerals. The rover team is now using Curiosity to survey the outcrop and assess possible targets for close inspection and drilling.

The mission may spend weeks to months at Pahrump Hills before proceeding farther up the st applications ack of geological layers forming Mount Sharp. Those higher layers include an erosion-resistant band of rock higher on Mount Sharp with such a strong orbital signature of hematite, it is called “Hematite Ridge.” The target drilled at Pahrump Hills is much softer and more deeply eroded than Hematite Ridge.

Another NASA Mars rover, Opportunity, made a key discovery of hematite-rich spherules on a different part of Mars in 2004. That finding was important as evidence of a water-soaked history that produced those mineral concretions. The form of hematite at Pahrump Hills is different and is most important as a clue about oxidation conditions. Plenty of other evidence in Gale Crater has testified to the ancient presence of water.

NASA’s Jet Propulsion Laboratory, a division of Caltech in Pasadena, manages the Mars Reconnaissance Orbiter and Mars Science Laboratory projects for NASA’s Science Mission Directorate in Washington, and built the Curiosity rover. NASA’s Ames Research Center, Moffett Field, California, developed CheMin and manages instrument operations. The Johns Hopkins University Applied Physics Laboratory, Laurel, Maryland, developed and operates CRISM.

Image: NASA/JPL-Caltech/MSSS

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