Founded in 1964 as a way to encourage the “inventiveness” of the Hebrew University of Jerusalem’s staff, Yissum Research and Development Company seeks to support and encourage research, development and education in their efforts to turn science into commercial products for society. Yissum is charged with the not insignificant task of protecting HU’s inventions, products and technologies. Serving as the Technology Transfer Services for the university, Yissum focuses on the ongoing assessment, protection and commercial optimization of the university’s intellectual property.
In their 40-plus year history, Yissum has perhaps surpassed expectations, with reported annual revenues in excess of $40 million, mostly from royalties, and properties ranging from long-shelf-life tomatoes to treatments for cancer and Alzheimer’s disease, placing the Hebrew University in the world’s top 15 academic institutions as measured by revenues from intellectual property sales.
Protect, Partner, Perform
As the Technology Transfer University for HU, Yissum serves not only to protect the university’s intellectual properties, but also to partner with researchers and worldwide businesses to develop commercial markets, and through licensing, establishing companies, joint ventures and collaborative research, enhance the market value and performance of HU’s discoveries, increasing their availability to a global marketplace.
The arrangement has a track record of success. Hebrew University generates approximately $1 billion in annual sales from products in its IP base and Yissum represents over 250 licensed technologies and 60 spin-off companies. The numbers keep adding up with over 3,000 ongoing research projects, 1,200 researchers, 1,400 registered patents and 5 Nobel laureates, all representing 40% of Israel’s civilian scientific research. The range of intellectual properties includes a diverse mix of industrial and therapeutic areas, including biotechnology, nanotechnology, medical research and technologies, pharmaceuticals, agriculture and nutrition, water and environmental technologies, computer science and software development, homeland security and more.
The seemingly endless supply of promising research projects come from the university’s research base; supported by an annual budget of over $77 million, allowing Yissum to take advantage of Technology Transfer Opportunities by identifying appropriate commercial partners, negotiating license agreements, creating spin-off companies and working closely with local and global commercial partners.
Recent news items focus on the medical arena, with HU’s concept of using cellular technology to send X-rays and other medical diagnostics. The new technology would allow for the use of a smaller, less expensive and easier to use Data Acquisition Device (DAD) at remote patient sites, which would be connected via cell technology with advanced image reconstruction at a central site. The implications are far-reaching and could serve to bring advanced medical technology into areas that otherwise could not afford to have it at their disposal; bringing MRIs, X-Rays and other medical diagnostics into rural and third-world areas.
Technologies Supported
Reading through Yissum’s list of products and companies is like reading a Who’s Who directory of the medical and technological worlds. The lists are full of recognized names, successful products and companies that make headlines on a regular basis.
Products from Yissum include Alzheimer and dementia treatment Exelon, dry-eye treatments Cationorm and LO2A (Lacrycon, Dropyal), ovarian cancer treatment Doxil (Caeylx), UV-protection product UV-Pearls-already adopted by major companies for sunscreens and cosmetics, and a variety of other pharmaceutical products. Oh, remember those long-shelf-life tomatoes? That would thanks to BonTom Vegetable Breeding and Research Group, from HU, of course. Another agricultural product from Yissum and Hazera Genetics is the Ram Onion. On the software side, there is Making Better Career Decisions, an interactive, Internet based career-guidance and information system.
Looking over a partial list of companies shows even more diversity, touching on pharmaceuticals, biotech, agriculture and irrigation, water treatment, software development, safety, nanotechnology, and medical technologies, research, development and devices.
Water treatment technologies like En Gibton Ltd and Treatec 21 Industries Ltd; agricultural endeavors Leafsen Irrigation Systems Ltd, Kovax Ltd-vaccines for the aqua culture world, Avian Tech Ltd, and Ravgalai Ltd-detection of antibiotic residues in milk, meat and food products are just the start of the list. Technology and software development come into play with Ex Libris Ltd-high-performance applications for libraries, Mobileeye Vision Technologies Ltd-with automated, on-board driver assist systems and MusicGenome Inc-a system of identifying musical taste based on artificial intelligence.
Perhaps the heaviest area of development is in the medical and pharmaceutical arenas with a long list of companies researching and developing treatments for cancer-including Algen Pharmaceuticals Inc-basically “tricking” cancer cells into “committing suicide.” Other treatment technologies focus on infectious and autoimmune diseases, rheumatoid arthritis and improving the efficacy of vaccines; even delving into the “nutraceutical” field with carriers for nutraceuticals to be incorporated in food systems and cosmetic formulations.
Technology Transfer Services
Yissum serves the Hebrew University, protecting its intellectual properties and moving forward with innovations and technologies into commercial endeavors, ultimately, serving the world community as well as the university through applied chemistry, physics, life science and biotechnologies, water technologies, nanotechnologies, and even veterinary medicine and agricultural technologies. It’s easy to see why Yissum is so highly regarded in the scientific and academic communities and ranks among the top Technology Transfer Services in the world.
Watch the video related to technology
[ www.mobileUncle.com ] Basically, Sixth Sense is a mini-projector coupled with a camera and a cellphone—which acts as the computer and your connection to the Cloud, all the information stored on the web. Sixth Sense can also obey hand gestures, like in the movie Report.
Help answer the question about technology
What technology will be avaible in the next 5-10 years that is beneficial to society?Technology that society can benefit from. Any ideas. I keep trying to google it but millions of web pages keep popping up. Can you give me a website link explaining about. Please I am so confused on what to do on this project.
Technology is not bad.
It's how we use it and whether we consider all the consequences before we put it in place. We have not done that in the past. We can't do things that way anymore.
Technology is what we will use to solve the problems that our misuse of it has brought about.
At the same time, we have to realize that sometimes simple technology is the answer. For example, here's a company doing something to save fuel for ocean freighters. It is really low tech, and it works.
http://www.skysails.info/index.php?id=20&L=1
and an American company doing the same thing.
http://www.kiteship.com/
These are parasails for ships. The cost of retrofitting a ship is dirt cheap. About the cost of leasing a large cape size bulk carrier ship for 2 days.
http://www.pluginpartners.org/
Plug in Partners is an advocacy group for plug in hybrid cars. This is what we need now. The average American driver would get 100mpg overall, and could charge the battery overnight, during off peak electricity demand, for $1.
That would get the average commuter back and forth to work, using no gasoline. You would only use gasoline on longer trips.
Here's a new book that demonstrates what we can do to save our planet while benefitting economically from the positive changes.
http://www.earththesequel.com./
"Krupp and Horn have turned the doom and gloom of global warming on its head. Earth: The Sequel makes it crystal clear that we can build a low-carbon economy while unleashing American entrepreneurs to save the planet, putting optimism back into the environmental story."
Michael Bloomberg, Mayor of New York City
Green Wombat is a good site to follow advances being made in alternative energy and electric and PHEV cars etc.
http://blogs.business2.com/greenwombat/
article on creative financing for solar, including what Berkeley is doing
http://www.greentechmedia.com/articles/solar-temblor-9-big-trends-page10.html
It takes the sting out of the up front cost of installing solar. This is also happening on a corporate level, with companies like Morgan Stanley setting up financing and power purchase agreements for corporations and other large businesses to install solar panels.
Power purchase agreements are how power companies in California, Nevada and Arizona are contracting for solar thermal power plants in the southwest. These PPAs are a very positive move in the right direction.
Here's what's happening on the cutting edge of thin film solar cells and panels
"Nanosolar’s founder and chief executive, Martin Roscheisen, claims to be the first solar panel manufacturer to be able to profitably sell solar panels for less than $1 a watt. That is the price at which solar energy becomes less expensive than coal."
“With a $1-per-watt panel,” he said, “it is possible to build $2-per-watt systems.”
"According to the Energy Department, building a new coal plant costs about $2.1 a watt, plus the cost of fuel and emissions, he said."
from http://www.grinzo.com/energy/index.php/category/solar/
This article shows how we could have a 69% solar electric grid by 2050, building solar power plants in the southwest.
Scientific American A Solar Grand Plan
http://www.sciam.com/article.cfm?id=a-solar-grand-plan
I don't agree with all the specifics of this proposal, but it is generally a good idea, even if we only do half or a third of what they are recommending.
It's becoming apparent that solar thermal plants are a better idea than the concentrating solar photovoltaic plants that they are emphasizing. And molten salt for storing thermal energy to generate electricity at night from solar plants is looking like the better idea. They propose caverns filled with compressed air. Molten salt only loses about 1% of it's heat over a 24 hour period, and doesn't involve digging all those caverns.
"The same acre can produce 10 times as much energy from wind as it can from corn ethanol, 180,000 miles per acre per year. But both corn ethanol and wind power pale in comparison with solar photovoltaic, which can produce more than 2 million miles worth of transport per acre per year." http://www.ecogeek.org/content/view/1454/70/
"Solar thermal power plants such as Ausra's generate electricity by driving steam turbines with sunshine. Ausra's solar concentrators boil water with focused sunlight, and produce electricity at prices directly competitive with gas- and coal-fired electric power."
"Solar thermal power plants can store energy during daylight hours and generate power when it's needed. Ausra's power plants collect the sun's energy as heat; Ausra is developing thermal energy storage systems which can store enough heat to run the power plant for up to 20 hours during dark or cloudy periods."
" All of America's needs for electric power – the entire US grid, night and day – can be generated with Ausra's current technology using a square parcel of land 92 miles on a side. For comparison, this is less than 1% of America's deserts, less land than currently in use in the U.S. for coal mines."
"In recent months, PG&E has signed deals for more than a gigawatt of electricity — enough to light more than 750,000 homes — with solar power plant developers. Such power purchase agreements can take more than a year to hammer out and the permitting and construction of a solar power station can take another three to five years."
"The solar thermal industry is in its infancy but utilities like PG&E (PCG), Southern California Edison (EIX) and San Diego Gas & Electric (SRE) have signed several contracts for solar power plants and negotiations for gigawatts more of solar electricity are ongoing."
from Green Wombat
Biomass to methane power also has big potential.
Sewage treatment plants, landfills, farms etc can all use anaerobic digesters to gather methane for power. This methane would eventually develop as things decompose and become greenhouse gas adding to global warming. This kills two birds with one stone. Check out what Environmental Power Corp is doing in this area.
Wind power
"In the US, the American Wind Energy Association forecasts that installed capacity could grow from 11,603 MW today to around 100,000 MW by 2020. In Canada, Emerging Energy Research predicts that installed wind capacity will expand from around 1,500 MW today to around 14,000 MW by 2015."
{from an article at altenergystocks.com by Charles Morand}
We now have a fledgling bioplastics industry which can make plastics from plant material like corn or non food plants like switchgrass. We now use 5-10% of our oil to make plastics, which create huge environmental problems, especially in the oceans.
Most plastic floats near the sea surface where some is mistaken for food by birds and fishes. Plastics are carried by currents and can circulate continually in the open sea. Broken, degraded plastic pieces outweigh surface zooplankton in the central North Pacific by a factor of 6-1. That means six pounds of plastic for every single pound of zooplankton."
DR. Marcus Ericson
http://www.algalita.org/research.html#plastic
http://www.algalita.org/pelagic_plastic.html
"I'd put my money on the sun & solar energy. What a source of power! I hope we don't have to wait until oil and coal run out before we tackle that." Thomas Edison, 1931
Oh, come on, it's just GOTTA be the transporter.
http://earth.rice.edu/MTPE/hydro/hydrosphere/hydrosphere_how.html
I prefer the original version.
@Kamelg Gross** Haha!!
Oh, there was that bit in the bible where Jesus turned dihydrogen monoxide into ethyl alcohol… or the part where he walked on surface tension… oh wait… its just a story…………….. P.S. please learn how to use grammar correctly.
this is total shit, it fuckin sucks it’s one of the worst song of all time (and Ive heard shit from Soulja Boy)
Great Smash Hit,the girl in Gold is worth every word of this song!
well if you think about it, technology makes experiments easy to be tested. You don't really want to wait all day to prove that your hypotheses was right, so technology really helps science. If your trying to prove something or test something, technology makes you life way easier. They're different because technology deals with making life easier and then there's the technical stuff about machinery and ya da ya da. Technology deals with more broader scale than science, it's like more hands on. Technology is cool too. While science is much cooler, Science is been around than technology. But anyway, science deals with everything, from testing an experiment to finding a cure for a disease. Science deals with explanations and experiments.
It's worse, some people cannot even spell "the" online without screwing up.
Thanks to my trusty companion, Hot Rod (an MX-400 Logitech mouse)
I never misspell when I post because of the auto-spellcheck and correction click and I am wise enough to know what word to use.
Poor education and texting is in my mind, the evil source of all this illiteracy. The phone companies should boost the memory capacity of their phones for typing in coherent english or parents should lecture their kids that this is not how you should write a book report and take their phones off them for a month or two.
On the other hand,
New words like "smart phone" "quantum computing" and "fanboy" are entering our language (I do not consider internet gibberish to even qualify for a dictionary EVER)
Communication is faster than ever, you can make friends who live in another country and tell them what hobbies you are into and they send a response in seconds.
I'm holding out hope for voice recognition software to replace the keyboard so that the computer types what you dictate in correct punctuation and spelling with a touch screen manual override in case you are sick with laryngitis or just don't feel like talking to a machine.
The english language is at a crossroads and it is up to us to decide if keeping it "pure" or letting slang and pop culture interact with it is for the best.
which version was first?
Establishing budget must be the first step in my opinion. Do you want proprietary hardware and kit in terms of that technology cul de sac that often occurs. What are the requirements in terms of users, is it that boardroom to boardroom type of scenario or is it more about groups / teams not just the management ? To get the best value from the type of activity "video conferencing" you're looking at – think along the lines of – what kit is required (hardware, bandwidth, quality, user interface) what financial foot print from an ongoing point of view. Desktop to boardroom – multipoint video and browser independence for future proofing your solution will address the flexibility aspect of "all" of your company and perhaps everyone your company deals with. The legacy issue is one of the biggest problems companies find themselves in.. who supports your hardware… and how much will that cost? Disclosure: CEO http://www.onlinemeetingrooms.com I'd be thrilled to demonstrate how far 100% independent web browsing quality has come. Hope this helps.
You are correct: it is black light (ultraviolet light).
Check out the links below:
ez is nagyon tetszik a Kicsimnek !
This is a good version, but i prefer the pendulum mix.
I see big advancements in material sciences nanotechnology and the usual advancements in computers for the next 30 years or so: lighter planes, better medical treatments, cheaper stronger structures, faster and faster computer, etc…
One hundred years is a long ways off. I'm not sure but I think the whole doubling processing speeds every1.5 years will breakdown by then and we will be turning to quantum computers that uses the states of subatomic particles instead of binary. Moon bases, American flag on Mars, trans Atlantic subway, space vacations for the wealthy (not super wealthy), more renewable energy power sources, no ice caps, and a Starbucks in everyones hourse =)
Me encanta esta cancion
@therealallpro the justin timberlake version