Telecommunications Pioneer Seizo Onoe Honored

With out Seizo Onoe, mobile phone networks wouldn’t be the supply of world connectivity we all know right now. The IEEE life member was instrumental in driving the standardization for 3G and 4G cellular networks.

The first-generation networks that launched within the late Nineteen Seventies and early Eighties had been largely country-specific, designed for making solely home or regional calls. There was no solution to ship textual content messages or different knowledge over 1G networks. And interference from different radio alerts made 1G protection unreliable; there have been loads of dropped calls. Plus, with out encryption, eavesdropping was a persistent downside.

In 1991 2G networks signaled the fledgling {industry}’s swap to digital—which improved safety and broadened the vary of options. Primary textual content messages turned potential.

Particular person international locations and carriers had constructed their very own telecommunications infrastructures, nevertheless, utilizing completely different applied sciences and protocols (though Europe had established a typical regional customary). An industry-wide, standardized mobile telecommunications infrastructure was wanted.

Onoe answered that decision, serving to to align firms’ and international locations’ infrastructures as 3G networks took form.

For his efforts, Onoe has been awarded the IEEE Jagadish Chandra Bose Medal in Wi-fi Communications. The medal, bestowed for the primary time this 12 months, is called for an Indian scientist who pioneered radio and millimeter-wave analysis.

Onoe is presently director of the Telecommunication Standardization Bureau on the Worldwide Telecommunication Union.

The medal is designed to commemorate contributions to wi-fi communications applied sciences with a worldwide influence.

“It’s the highest honor for me,” Onoe says, “particularly as I’m the primary recipient.”

Studying early digital cellular radio transmission

Onoe grew up in Akashi, in southwestern Japan. He says he was drawn to the “directness” of STEM topics. He majored in engineering when he enrolled at Kyoto College in 1976.

“After all, my mother and father additionally recommended engineering as a result of it was extra advantageous for employment,” he says.

He earned a bachelor’s diploma in 1980 and an engineering grasp’s diploma two years later. As a graduate scholar, he labored on early digital cellular radio transmission.

The primitive tools on which he lower his enamel—repurposed (1.544 megabits per second) fixed-line {hardware} donated by {industry}—despatched out cellular radio alerts at knowledge charges that may be corresponding to these of 3G sometime, foreshadowing the digital cellular future.

The talk behind the 3G customary

Japan’s Nippon Telegraph and Phone in 1979 launched the world’s first 1G community. In 1982 Onoe joined NTT’s Yokosuka Electrical Communication Laboratory, in Yokosuka Metropolis. Beginning his NTT profession as a researcher, he helped develop the management alerts vital for name setup and different controls over an analog community.

“On the time, NTT’s cellular companies was a really small division,” he remembers. Issues actually began altering within the early Nineteen Nineties, he says.

In 1992 the corporate spun off its cellular division, Docomo (do communications over the cellular community). The title was popularly interpreted as a play on the Japanese phrase dokomo, which suggests in every single place.

Onoe was transferred to Docomo in 1992, when the corporate was based, and was later promoted to government engineer and director. NTT reacquired Docomo in 2020.

He contributed to 3G growth, together with work on a speedy cell search algorithm, which proved important for community efficiency. The algorithm lets cellular gadgets rapidly determine the closest base station in a mobile community. And it didn’t depend on different methods, like GPS, to find the right cell in a community—making the method simpler, quicker, and cheaper.

His most difficult effort all through the Nineteen Nineties, he says, was together with rising digital mobile stakeholders worldwide—together with governments, telecom firms, and regulators—to start envisioning the infrastructure on which a really world mobile community could possibly be constructed.

That meant creating a single customary.

“There have been many, many heated debates all all over the world,” Onoe says.

Based on historical past articles printed on-line by Ericsson, the debates had been advanced and contentious. They concerned entities from inside and outdoors the {industry}, together with telephone producers, cellular service suppliers, requirements boards, and authorities officers.

Europe alone was contemplating 5 completely different telecom infrastructures throughout the continent’s quite a few mobile networks, Onoe says, highlighting the divide all over the world. Some firms and international locations supported time-division a number of entry (TDMA), which might break up the accessible community bandwidth into time slots and assign customers particular slots for transmission. Others had been pushing a unique entry know-how that’s partly aggressive with TDMA and partly complementary to it: code-division a number of entry (CDMA), which makes use of distinctive codes to permit a number of customers to share each bandwidth and time.

As if that rising requirements panorama weren’t difficult sufficient, Sony championed yet one more know-how primarily based on orthogonal frequency division a number of entry (OFDMA).

In December 1997 the European Telecommunications Requirements Institute met in Madrid. At challenge can be who managed the requirements for, on the time, the 3G future.

And that’s when the fur actually flew. The Nordic cellular producers Ericsson and Nokia squared off in what had been, based on Ericsson’s account a minimum of, “more and more warlike circumstances.” Britain’s prime minister, Tony Blair, who the above account stated “regarded Ericsson as a British firm,” took Ericsson’s facet within the squabbles. Different ETSI disputes aired at that assembly discovered their method into lawsuits years later.

Not one of the requirements into account garnered sufficient votes to cross. A second vote can be held the next month in Paris—and so the lobbying started anew.

On the Paris assembly in January 1998, the ETSI voted on W-CDMA because the dominant customary for the world’s 3G networks. However within the spirit of compromise, the requirements physique additionally allotted a restricted quantity of 3G spectrum to TD-CDMA, a mixture of the time-division and code-division strategies.

Following that, within the last stage of the 3G standardization battle—a debate between wideband CDMA and an identical entry know-how, CDMA2000—Onoe emerged as a significant participant to assist dealer an settlement, as Japan a minimum of hedgingly supported the push for W-CDMA.

“I made a decision to step in and be a part of the struggle, so to talk,” Onoe says. “Throughout all these international locations and distributors and people combating, it was clear we had been going to should provide you with some compromises to lastly agree.”

Onoe helped lead an operators’ harmonization group to do exactly that. It proposed altering the chip charge—the frequency at which the smallest models of 3G code are transmitted.

With 3G politics addressed, the onerous 3G engineering work then started in earnest.

“We needed to begin the event of the industrial system,” Onoe says. “I don’t assume I absolutely appreciated simply how difficult that was going to be.”

From 1999 till 2001, he says, he labored every single day together with weekends.

“I might begin conferences at midnight, summarize the day’s actions, and plan for the following day,” he says. “It’s onerous to think about all these years later, however as a younger and excited engineer, it was straightforward for me to do.”

NTT turned the primary firm to launch 3G commercially, in October 2001. The brand new wi-fi customary vastly outstripped 2G’s knowledge charges. In the end, common 2G obtain speeds had been about 40 kilobits per second, whereas 3G finally would boast as much as 8 megabits per second. The 2G to 3G swap represented a night-and-day distinction in velocity, making 3G the primary world customary to allow the primary wave of cellular video calls, Web searching, on-line video games, and streaming video content material.

4G and telecom’s speedy bandwidth progress

Together with his contributions to 3G secured, Onoe continued to look ahead. In 2009 Ericsson and Sweden’s TeliaSonera launched the world’s first 4G/LTE community. 5 occasions quicker than 3G, it unlocked high-definition video streaming, lag-free on-line gaming, and a brand new vary of cellular apps together with FaceTime, Snapchat, and Uber.

Onoe additionally performed a key position within the world 4G standardization course of. On the time, he was Docomo’s managing director of R&D technique. He went on to develop into the corporate’s chief know-how officer, in addition to an government vp who served on the board of administrators. When he left the corporate in 2022, he was NTT’s chief standardization technique officer.

That 12 months he was elected to his present position: director of the ITU’s Telecommunication Standardization Bureau. He started his four-year time period initially of 2023.

“The ITU’s elementary mission is to attach the unconnected,” he says. “One-third of the world’s inhabitants remains to be not related. And customary specs assist, as a result of once they’re adopted broadly, they create economies of scale. Competitors will increase, and the worth drops. It’s a constructive cycle.”

Collaborating with IEEE

Onoe joined IEEE early in his profession—following firm coverage at NTT encouraging membership. He says he continues to resume his membership as a result of he values the networking alternatives it gives, in addition to possibilities to speak in regards to the {industry} with fellow engineers.

He works carefully with IEEE leaders in his present place at ITU. In December the organizations convened the IEEE-ITU Symposium on Attaining Local weather Resilience, which goals to form a technology-driven street map to confront the local weather disaster.

“We additionally maintain joint workshops and conferences and share ideas informally,” Onoe says. “As I’ve seen all through my profession, it’s critically essential that requirements our bodies actively collaborate if we hope to advance world know-how.”