#Farmlogs Is Now Able To Alert Farmers About Crop Threats Farm management software company Farmlogs is used by over 20%of the farms in the U s. with over $15 billion in crops under management.
Farmlogs users will automatically receive actionable maps. Farmlogs monitors crop health by utilizing multi-spectral satellite imagery to build performance baselines from over five years of field-specific crop health data.
The crop health is tracked throughout the season against the performance baseline to detect subtle cues
As a gift to its users, Farmlogs is offering the crop monitoring feature for free this year.
and the farm management software company plans to double its staff count this year. Farmlogsgrowth does not come as a surprise
ee seen how impactful data can be in helping farmers optimize their production. At the same time, we are always looking for ways to minimize the work our users have said to do
Farmlogs CEO and cofounder Jesse Vollmar in an interview. sing remote sensing technology to monitor the health of fields made perfect sense as a feature that would do both things.
along with cameras and sensors that monitor the plants bunches of basil (used to make Liguria's iconic pesto sauce) growing either in hydroponics or in soil.
Was the January 2015 data an anomaly? No. CAISO uses a March 31 forecast date to illustrate the daily forecasted maximum ramp requirements on its system from 2014 through 2020.
it is providing both real-time data and forecasts for how supply and demand will match in its territory.
check your email, count your sperm: Taiwanese start-up Aidmics is hoping to cash in on the $40 billion global human fertility market with an ipad compatible gadget it calls isperm.
Aidmics initially developed the product to help livestock farmers, but founder Agean Lin now plans to seek U s. Food
The light beams the moving image to the ipad camera, and algorithms then analyze the sample for total sperm count and motility,
or how fast sperm can swim. Sam Wang, manager of a livestock farm in central Taiwan, is a convert. ur pregnancy success rate increased by 20 percent after we started using this gadget
Light-based technologies such as optical fiber networks allow us to connect rapidly with people worldwide over the internet.
Light emitting diodes (LEDS) are now everywhere from consumer electronics like smart phones to light bulbs for home lighting.
and receive data with high bandwidths as well as to detect trace molecules or bio-agents. Construction of our nanolaser required precise control over the shape and location of the adjacent gold nanoparticles.
That such nanostructures could even be made is because of the decades-long investment by the electronics industry in developing nanofabrication tools to make the tiny components in computers.
#New Honeycomb-Inspired Design Protects Against Impacts Conventional honeycomb structures are insular panels of repeating, often hexagonal-shaped cells in a range of sizes and configurations.
and computer engineering professor Zhenqiang"Jack"Ma, described the new device in a paper published May 26, 2015 by the journal Nature Communications("High-performance green flexible electronics based on biodegradable
or support layer, of a computer chip, with cellulose nanofibril (CNF), a flexible, biodegradable material made from wood."
Yei Hwan Jung, a graduate student in electrical and computer engineering and a co-author of the paper,
and environmentally benign method to combat bacteria by engineering nanoscale particles that add the antimicrobial potency of silver to a core of lignin,
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and environmentally responsible method to make effective antimicrobials with biomaterial cores.""The researchers used the nanoparticles to attack E coli, a bacterium that causes food poisoning;
and environmentally benign method to combat bacteria by engineering nanoscale particles that add the antimicrobial potency of silver to a core of lignin,
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and environmentally responsible method to make effective antimicrobials with biomaterial cores.""The researchers used the nanoparticles to attack E coli, a bacterium that causes food poisoning;
"##The research team included faculty members in bioengineering, chemical and biomolecular engineering, chemistry, electrical and computer engineering and mechanical science and engineering;
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
. 5m Grant For Developing Nano Printing Technology: 4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015cancer First full genome of a living organism assembled using technology the size of smartphone June 15th,
2015paper Published on Keystone Nanos Ceramide Nanoliposome Program June 11th, 2015lehigh University researchers unveil engineering innovations at Techconnect 2015:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015a new way to image surfaces on the nanoscale:
Method could be useful in developing green energy and a better understanding of rust June 18th, 2015registration in 8th Int'l Iran Nano Expo 2015 Starts June 18th, 2015interviews/Book reviews
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015a new way to image surfaces on the nanoscale:
Method could be useful in developing green energy and a better understanding of rust June 18th, 2015graphene heat-transfer riddle unraveled June 17th, 201 0
"This tool allows us to apply drugs as needed directly to the site of injury, which could have broad medical applications,
and transported a patch of the nanowire carpet on water droplets that were used used to deliver it to the site of injury.
The nanowire patches adhere to the site of injury through surface tension Gao said. The magnitude and wave form of the electromagnetic field must be tuned to obtain the optimum release of the drug,
"By the time the drug diffuses from the site out into the rest of the body it is in amounts that are undetectable in the usual tests to monitor the concentration of drugs in the bloodstream."
News and information n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches
Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
-Legislation/Regulation/Funding/Policy NNI Publishes Workshop Report and Launches Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
000 Qubit Processor and Is discussed in the Economist June 23rd, 2015leti to Present Solutions to New Applications Using 3d Technologies at SEMICON West Letiday Event, July 14:
electronic devices June 22nd,2015$8. 5m Grant For Developing Nano Printing Technology: 4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015discoveries Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together
nanoscale geometric grids: New technique creates multilayered, self-assembled grids with fully customizable shapes and compositions June 23rd,
Free Download Available on Firms Website June 24th, 2015uk Graphene Open for Business with Asia June 23rd,
Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches Web portal on Nanosensors:
, Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches Web portal on Nanosensors:
Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology: Improving and Protecting Health, Safety,
Manufacturer is first to offer quantum dot displays for both TVS and monitors June 30th, 2015carnegie Mellon chemists characterize 3-D macroporous hydrogels:
Our results demonstrate that the application of green chemistry principles may allow the synthesis of nanoparticles with biodegradable cores that have higher antimicrobial activity and smaller environmental impact than metallic silver nanoparticles.
and environmentally benign method to combat bacteria by engineering nanoscale particles that add the antimicrobial potency of silver to a core of lignin,
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and environmentally responsible method to make effective antimicrobials with biomaterial cores.""The researchers used the nanoparticles to attack E coli, a bacterium that causes food poisoning;
In a paper published July 10 in the journal Physical Review Letters, Zongfu Yu, an assistant professor of electrical and computer engineering,
#Scientists print low cost radio frequency antenna with graphene ink (Nanowerk News) Scientists have moved graphene--the incredibly strong and conductive single-atom-thick sheet of carbon--a significant step along the path
Researchers from the University of Manchester, together with BGT Materials Limited, a graphene manufacturer in the United kingdom, have printed a radio frequency antenna using compressed graphene ink.
The antenna performed well enough to make it practical for use in radio-frequency identification (RFID) tags and wireless sensors,
from AIP Publishing("Binder-free highly conductive graphene laminate for low cost printed radio frequency applications")."These scanning electron microscope images show the graphene ink after it was deposited
/University of Manchester) The study demonstrates that printable graphene is now ready for commercial use in low-cost radio frequency applications,
They accomplished this by first printing and drying the ink, and then compressing it with a roller,
which enabled efficient radio frequency radiation, was one of the most exciting aspects of the experiment,
and 3. 5 millimeter across and radiated radio frequency power effectively, said Xianjun Huang, who is the first author of the paper and a Phd candidate in the Microwave and Communcations Group in the School of Electrical and Electronic engineering.
like RFID tags that currently transmit identifying info on everything from cattle to car parts,
Most commercial RFID tags are made from metals like aluminium and copper, Huang said, expensive materials with complicated fabrication processes that increase the cost."
"Graphene based RFID tags can significantly reduce the cost thanks to a much simpler process and lower material cost,
The University of Manchester and BGT Materials Limited team has plans to further develop graphene enabled RFID tags,
Tunneling electrons from a scanning tunneling microscope tip excites phonons in graphene. The image shows the graphene lattice with blue arrows indicating the motion direction of that carbon atoms for one of the low energy phonon modes in graphene.
The high purity graphene device was fabricated by NIST researcher Y. Zhao in the Center for Nanoscale Science and Technology's Nanofab, a national user facility available to researchers from industry, academia and government t
Wrights team is now looking to find out how easy it is for users. The USAID competition was intended actually for systems built for individual farms,
#Toward tiny, solar-powered sensors The latest buzz in the information technology industry regards he Internet of thingsthe idea that vehicles, appliances, civil-engineering structures, manufacturing equipment,
and even livestock would have embedded their own sensors that report information directly to networked servers,
an MIT graduate student in electrical engineering and computer science and first author on the new paper. e need to regulate the input to extract the maximum power,
but now they have an app for tablets to collect data directly from the field.
In this way, previous data and the data gathered through apps and sensors are channelled into the same database,
says Molino, and it allows facts about different years to be compared. This research has involved also a company based in Ivrea,
A software program builds a mosaic made up of hundreds of images, which shows in a single 3d picture the field flown over.
All the data are was sent by digital mobile radio allowing agronomists and farmers to check the results in real time.
Abbey Liebman 10 created a dress using conductive cotton threads capable of charging an iphone.
With ultrathin solar panels for trim and a USB charger tucked into the waist, the Southwest-inspired garment captured enough sunshine to charge cell phones
and other handheld devices allowing the wearer to stay plugged in. The technology may be embedded into shirts to measure heart rate
and environmentally benign method to combat bacteria by engineering nanoscale particles that add the antimicrobial potency of silver to a core of lignin,
In a study published in Nature Nanotechnology("An environmentally benign antimicrobial nanoparticle based on a silver-infused lignin core),
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment.
and environmentally responsible method to make effective antimicrobials with biomaterial cores. The researchers used the nanoparticles to attack E coli
In a paper published July 10 in the journal Physical Review Letters("Extraordinarily large optical cross section for localized single nanoresonator"),Zongfu Yu, an assistant professor of electrical and computer engineering,
Nanoparticles made from these polymers have a hydrophobic core and a hydrophilic shell. Due to molecular-scale forces
BPA, another endocrine-disrupting synthetic compound widely used in plastic bottles and other resinous consumer goods, from thermal printing paper samples;
and one oxygen atom) can be polymerized to form polycarbonates in reactions that use special catalysts.
promises to capture all those stray radio waves emitted back and forth between wireless phones and the towers through
extending a smartphone's battery life by as much as 30%.%Announced as part of an upcoming Kickstarter fundraising campaign, the technology,
which Nikola's designers engineered into a special case made for Apple's iphone, reportedly harvests the electromagnetic radiation transferring to and from mobile phones and converts it into direct current (DC) electrical energy,
which is recycled then back into the phone's battery.""Nikola Technology efficiently converts RF signals like Wi-fi, Bluetooth,
and LTE into DC power using its proprietary energy harvesting circuit, "explains the company on its website."
"The result is usable energy that can provide power to mobile devices wirelessly.""Though not perfect by any means, Nikola energy-capturing case holds promise For a sponsorship contribution of $99,
early supporters of the project will gain exclusive first-issue access to the case, which doesn't so much charge an iphone actively as it does extend its normal battery life.
Still, the case's novelty, and more importantly its longer-term potential, is what stands to inspire a new generation to take advantage of energy inefficiency and waste.
One major drawback to the technology is that its relatively slow to harvest energy, and the case itself doesn't contain an actual battery of its own to store excess charge.
At the same time the case itself is small and form-fits well to the iphone, acting as an all-in-one battery extension package that's sleek, discreet and unobtrusive."
"As magical as this sounds, the iphone case won't be able to charge your phone from zero to 100,
%"explains Business Insider about the case, which captures some 90%of the stray signals that would
either--the antenna and power-converting circuit can only extend the battery life of an iphone 6 by about 30,
Elledge and his colleagues used an international database to look up all viruses known to infect humans around 1000 strains from 206 viral species. Using this information,
"The team used the test to screen blood samples from 569 people from four countries the US, South africa, Thailand and Peru.
Matthews thinks it would be worth extending the screen to animal populations. He envisages screening wild populations of animals thought to be linked to emerging diseases."
and migrate to the affected sites. We could also use this technique to study the early development of complex organisms,
including future generations of film displays for smartphones and tablets e
#Computer Chips Can Now Be made From Wood Not quite what we had in mindthe woods are lovely, dark, deep,
and filled with potential computer components. In a paper published in Nature Communications this week,
researchers announced the construction of computer chips made from wood. But don't expect to see hipsters advertising hand-carved artisan computer chips.
The wood product that the scientists are using is called cellulose nanofibril, or CNF. It is thin, flexible,
and when a layer of epoxy is applied, it doesn't expand or attract moisture like wood normally does (think of a warped board--not something you want in a computer).
The researchers were able to use CNF as a substrate or base layer for electronic circuits in lab tests,
unlike a lot of the petroleum-based alternatives that manufacturers use to build the bases of modern computer chips.
"It will be years before computers containing wood-based computer chips hit store shelves, but computers as fertilizer isn't a totally crazy idea.
Society tends to treat electronics as disposable commodities. But unlike a glass bottle that gets recycled or food that hits a compost heap,
once that broken laptop heads into the trashcan, it doesn't disappear. Every year, 3. 2 million tons of electronic waste are thrown out in the United states alone.
and others like him (another team is building dissolvable circuits) are trying to deal with the e waste problem at the start--long before your phone gets stepped on or your computer crashes.
#Mood-changing wearable tech sets pulses racing The makers of'doppel'call it the next generation of wearable technology-one that can actually change the mood of the user.
instead of the current crop that often just monitor the body's activity.""Wearables currently are centered mostly around monitoring
"Bennett told Reuters. Doppel is synchronized to each individual via a smartphone app that measures their resting heart rate.
"You take your resting heart rate through your phone, and then that's the bio-data we need to set the levels that you need to either (get) calm
or to get going. It's not a lot of data, but we're using it very smartly,
and that's the approach we take, "said co-developer Jack Hooper. To control the level of doppel's pulse,
with their controlled tests showing the device can improve alertness when correctly set to the user's preference.
#Researchers develop new instrument to monitor atmospheric mercury Researchers at the University of Miami (UM) Rosenstiel School of Marine
and monitor blue shifted atomic fluorescence. UM Rosenstiel School Professor of Atmospheric Sciences Anthony Hynes and colleagues tested the new mobile instrument
To accomplish that Duke university researchers used software they developed to predict a constantly-evolving infectious bacterium's countermoves to one of these new drugs ahead of time before the drug is tested even on patients.
When the researchers treated live bacteria with the new drug two of the genetic changes actually arose just as their algorithm predicted.
This gives us a window into the future to see what bacteria will do to evade drugs that we design before a drug is deployed said co-author Bruce Donald a professor of computer science and biochemistry at Duke.
and Amy Anderson at the University of Connecticut used a protein design algorithm they developed called OSPREY to identify DNA sequence changes in the bacteria that would enable the resulting protein to block the drug from binding
The researchers are now using their algorithm to predict resistance mutations to other drugs designed to combat pathogens like E coli and Enterococcus.
The software they developed called OSPREY is open-source and freely available for any researcher to use e
"The data from the studies have been shared with federal regulators, he added, with the aim of launching a clinical trial to test the system at UPMC this year."
#New laser for computer chips: International team of scientists constructs first germanium-tin semiconductor laser for silicon chips The transfer of data between multiple cores as well as between logic elements and memory cells is regarded as a bottleneck in the fast-developing computer technology.
Data transmission via light could be the answer to the call for a faster and more energy efficient data flow on computer chips as well as between different board components.
Signal transmission via copper wires limits the development of larger and faster computers due to the thermal load and the limited bandwidth of copper wires.
The clock signal alone synchronizing the circuits uses up to 30%of the energy--energy which can be saved through optical transmission explains Prof.
Some long-distance telecommunication networks and computing centres have been making use of optical connections for decades.
Through optical fibres signal propagation is almost lossless and possible across various wavelengths simultaneously: a speed advantage
Along with computer chips completely new applications that have not been pursued so far for financial reasons may
In the future cost-effective portable sensor technology--which may be integrated into a smart phone--could supply real-time data on the distribution of substances in the air
plasmids and other mobile genetic elements, says Rodolphe Barrangou, associate professor of food science at NC State and a co-corresponding author of the paper.
Conventional honeycomb structures are insular panels of repeating, often hexagonal-shaped cells in a range of sizes and configurations.
"said Zhenqiang Ma, the team leader and a professor of electrical and computer engineering at the UW-Madison."
PLA is also one of the few plastics that are suitable for 3d printing. However, PLA is not yet a full alternative for petroleum-based plastics due to its cost.
In a paper published July 10 in the journal Physical Review Letters, Zongfu Yu, an assistant professor of electrical and computer engineering,
By simulating experiments in computers and observing the results, they were able to design actual chemistry experiments and reagents with much better performance than traditional trial-and-error approaches.
collaboration could lead to biodegradable computer chips Portable electronics typically made of nonrenewable, non-biodegradable and potentially toxic materials are discarded at an alarming rate in consumerspursuit of the next best electronic gadget.
A cellulose nanofibril (CNF) computer chip rests on a leaf. Image credit: Yei Hwan Jung, Wisconsin Nano Engineering Device Laboratory A cellulose nanofibril (CNF) computer chip rests on a leaf.
Image credit: Yei Hwan Jung, Wisconsin Nano Engineering Device Laboratory The research team, led by UW-Madison electrical
and computer engineering professor Zhenqiang ackma, described the new device in a paper published on May 26, 2015 by the journal Nature Communications.
or support layer, of a computer chip, with cellulose nanofibril (CNF), a flexible, biodegradable material made from wood. he majority of material in a chip is support.
Yei Hwan Jung, a graduate student in electrical and computer engineering and a co-author of the paper,
data storage hardware and advancing quantum computing. uow195685 o one in the scientific community believed silicene paper could be made
Dr Du said. hen we use two small robotic arms that we move with a hand-held video game controller to catch the atoms in the vacuum chamber
for context, only 108 mammals are listed in the National Center for Biotechnology Information database. ntil recently,
With advances in DNA sequencing technology and computer processing the process is now efficient and cost-effective enough to be useful in obtaining whole genome sequences of wildlife species, like bighorn sheep.
As a game species, the trophy status of a bighorn sheep ram is based largely on horn size.
Because the rams with the largest horns are often the ones targeted by hunters their removal from a population could then eliminate the genetic ability of animals in that population to grow large horns.
a chemical engineer with joint appointments at Berkeley Lab and UC Berkeley. he recyclable catalysts we developed are capable of converting sugarcane biomass into a new class of aviation fuel and lubricants with superior cold
The process developed at EBI can be used to selectively upgrade alkyl methyl ketones derived from sugarcane biomass into trimer condensates with better than 95-percent yields.
and additives for gasoline as Gokhale explains. ith some minimal modifications to both the catalysts
but hold that there still important incentives to encourage investments. ee shown in this study that biorefineries can use inexpensive catalysts to produce a suite of hydrocarbon fuels and lubricants,
and tested the results with advanced 3d printing technology. The new findings could serve as a basis for designing moveable components with especially natural mobile properties, for example for applications in robots.
To this end, they developed a computer simulation as well as tissue-like materials from a porous polymer in
The researchers were delighted also that the theoretical predictions from the computer simulation almost perfectly matched the results of their tests on synthesized porous polymer materials.
Only the amount of expansion was somewhat less in the experiment than in the virtual simulation. his means that wee able to design such materials on the computer
Scientists at Harvard university in Cambridge, USA, manufactured the material with the help of a multimaterial 3d printer.
air filtration systems and even your clothes. bbey Liebman 0 created a dress using conductive cotton threads capable of charging an iphone.
With ultrathin solar panels for trim and a USB charger tucked into the waist, the Southwest-inspired garment captured enough sunshine to charge cell phones
and other handheld devices allowing the wearer to stay plugged in. The technology may be embedded into shirts to measure heart rate
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011