A team of Stanford researchers have come up with "full duplex" radios that can talk and listen at the same time -- a feat that enables communications simultaneity over WiFi networks. Cutting through existing WiFi congestion could double network speeds and capacities, encourage ambitious new projects -- such as citywide WiFi -- and even help prevent plane crashes.Ten-4. Back to you. Over.
On a radio or over the TV airwaves, speakers have to rely on back-and-forth communications because radio traffic only flows in one direction at a time on a frequency. Or so said scientific conventional wisdom, until Stanford researchers developed so-called "full duplex" radios that can send and receive signals at the same time. Twice as fast as existing radio devices, the new technology promises less congested, more efficient networks.
"Textbooks say you can't do it," said the technology's principal investigator Philip Levis, assistant professor of computer science and of electrical engineering at Stanford. "The new system completely reworks our assumptions about how wireless networks can be designed."
Dreams of supercharged WiFi connections are already dancing.
"Full-duplex technology like this could literally double the speed of WiFi connections almost overnight," said Jason Katz, founder and CEO of instant messaging and wireless video technology provider Paltalk.com. "This could greatly enhance each and every WiFi user's Internet experience."
WiFi Workaround
Used to telephones and cellular phones, most people don't think about the inability to communicate simultaneously on radio. Perhaps they should, because cellphones route around the problem with expensive technologies whose costs get passed along to consumers -- and make similar fixes unfeasible for wireless networks that often come free, including WiFi.
The idea for communications simultaneity came virtually simultaneously among three Stanford electrical engineering graduate students -- Jung Il Choi, Mayank Jain and Kannan Srinivasan.
They wanted to answer this question: "What if radios could do the same thing our brains do when we listen and talk simultaneously: screen out the sound of our own voice?" Stanford science writer Sandeep Ravindran explained.
Simultaneous talk on a radio can build a Tower of Babel in no time.
"If both people are shouting at the same time, neither of them will hear the other," Levis told TechNewsWorld.
With help from Levis and Sachin Katti, an assistant professor of computer science and of electrical engineering, the grad students had to overcome an intrinsic flaw in radio communications. That is, a radio's own transmissions -- billions of times stronger than anything it might pick up from another radio -- overwhelm incoming signals, Levis explained.
"It's like trying to hear a whisper while you are shouting," he said. Filtering out the noise became the basis for the new solution, which Paltalk's Katz said should encourage further innovations.
"I would think enabling this technology would encourage more WiFi projects designed to blanket large areas such as cities," he told TechNewsWorld. "Networks should be far less congested, and cities would greatly benefit."
Double Time
Sending and receiving signals simultaneously doubles the amount of information sent, Levis said, which means faster home or office networks -- and a boost to air traffic controllers, a high pressure bunch often beleaguered by the demands of skyward communication critical to safety.
Presently, if two aircraft try to call the control tower at the same time on the same frequency, neither will get through. Such blocked transmissions have caused aircraft collisions, Levis said, a problem the new approach would resolve.
Provisional patent in hand, the Stanford group is trying to increase both transmission strength and distance, necessary before the technology is WiFi-ready.
With an instant messaging client that allows users to share video, audio and text with up to 10 people at any time for free, the thought of faster, cheaper networks that allow more people to communicate at once impresses Paltalk's Katz.
However, where the Stanford innovation goes from here depends "largely on how the inventors decide to commercialize it," he explained. "Regardless, it should cause a new cycle of hardware purchasing to enable the technology."
On a radio or over the TV airwaves, speakers have to rely on back-and-forth communications because radio traffic only flows in one direction at a time on a frequency. Or so said scientific conventional wisdom, until Stanford researchers developed so-called "full duplex" radios that can send and receive signals at the same time. Twice as fast as existing radio devices, the new technology promises less congested, more efficient networks.
"Textbooks say you can't do it," said the technology's principal investigator Philip Levis, assistant professor of computer science and of electrical engineering at Stanford. "The new system completely reworks our assumptions about how wireless networks can be designed."
Dreams of supercharged WiFi connections are already dancing.
"Full-duplex technology like this could literally double the speed of WiFi connections almost overnight," said Jason Katz, founder and CEO of instant messaging and wireless video technology provider Paltalk.com. "This could greatly enhance each and every WiFi user's Internet experience."
WiFi Workaround
Used to telephones and cellular phones, most people don't think about the inability to communicate simultaneously on radio. Perhaps they should, because cellphones route around the problem with expensive technologies whose costs get passed along to consumers -- and make similar fixes unfeasible for wireless networks that often come free, including WiFi.
The idea for communications simultaneity came virtually simultaneously among three Stanford electrical engineering graduate students -- Jung Il Choi, Mayank Jain and Kannan Srinivasan.
They wanted to answer this question: "What if radios could do the same thing our brains do when we listen and talk simultaneously: screen out the sound of our own voice?" Stanford science writer Sandeep Ravindran explained.
Simultaneous talk on a radio can build a Tower of Babel in no time.
"If both people are shouting at the same time, neither of them will hear the other," Levis told TechNewsWorld.
With help from Levis and Sachin Katti, an assistant professor of computer science and of electrical engineering, the grad students had to overcome an intrinsic flaw in radio communications. That is, a radio's own transmissions -- billions of times stronger than anything it might pick up from another radio -- overwhelm incoming signals, Levis explained.
"It's like trying to hear a whisper while you are shouting," he said. Filtering out the noise became the basis for the new solution, which Paltalk's Katz said should encourage further innovations.
"I would think enabling this technology would encourage more WiFi projects designed to blanket large areas such as cities," he told TechNewsWorld. "Networks should be far less congested, and cities would greatly benefit."
Double Time
Sending and receiving signals simultaneously doubles the amount of information sent, Levis said, which means faster home or office networks -- and a boost to air traffic controllers, a high pressure bunch often beleaguered by the demands of skyward communication critical to safety.
Presently, if two aircraft try to call the control tower at the same time on the same frequency, neither will get through. Such blocked transmissions have caused aircraft collisions, Levis said, a problem the new approach would resolve.
Provisional patent in hand, the Stanford group is trying to increase both transmission strength and distance, necessary before the technology is WiFi-ready.
With an instant messaging client that allows users to share video, audio and text with up to 10 people at any time for free, the thought of faster, cheaper networks that allow more people to communicate at once impresses Paltalk's Katz.
However, where the Stanford innovation goes from here depends "largely on how the inventors decide to commercialize it," he explained. "Regardless, it should cause a new cycle of hardware purchasing to enable the technology."
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