Since 2020, Samsung Electronics has played a pioneering role in advancing next-generation communication technologies through active participation in international standardization efforts. This includes the publication of its 6G white papers and securing of key positions in major organizations such as the 3rd Generation Partnership Project (3GPP). At the May 2025 3GPP elections, Samsung secured additional leadership positions, reaffirming its distinct standing at the forefront of the industry.

To shine a light on this progress, Samsung Newsroom is launching an interview series with the leaders of the company’s communications business, which will introduce the current state of next-generation communications technology research and global standardization efforts. In part one of the Communications Leadership Interview series, the Newsroom sat down with Jin-Kyu Han, Vice President of the Tech Standards Research Team at Samsung Research, to discuss the current landscape and future outlook of 6G standardization, as well as Samsung’s strategies and vision.

▲ Jin-Kyu Han, Vice President of the Tech Standards Research Team at Samsung Research

International Standards for Seamless Communication Across Borders

Today, using our own smartphones to access roaming services while traveling abroad is something we often take for granted. This is a convenience that has only become truly seamless through the invisible promise of international standards — born from the collaboration of countless companies and experts around the world.

“Common protocols are essential for products and services from different companies to work together seamlessly,” explained Han. “In the mobile communications industry, where a diverse range of players — including smartphone manufacturers, network equipment vendors, telecom operators and semiconductor companies — are involved, standardization is an indispensable element. It plays a key role in uniting the world into a single market.”

Standardization serves as the backbone that drives the global communications industry toward a unified direction. “At technological inflection points like the transition to 6G, the importance of industry-wide discussions and consensus on standards becomes even greater,” Han emphasized.

Global Collaboration Driving 6G Standardization

How does global standardization actually function? Unlike initiatives driven by a single entity, global telecommunications standardization is built on a clear, step-by-step framework of collaboration. Two key players in this process are the International Telecommunication Union (ITU¹) and the 3^rd Generation Partnership Project (3GPP²).

“The ITU sets the direction for each new generation of communication technology, and based on that blueprint, the 3GPP works with global companies to define the technical details and carry out the standardization process,” explained Han.

▲ Overview of ITU and 3GPP

Global 6G standardization has now entered its launch phase. Following preliminary discussions on 6G technology directions that began in 2021, ITU-R officially announced the recommended framework for 6G standardization in November 2023. With the goal of finalizing 6G technical specifications by 2030, 3GPP plans to develop and propose a range of candidate technologies.

“3GPP took its first step toward 6G standardization by hosting a workshop in Korea this March,” explained Han. “6G study items were approved during its plenary meeting in June, and starting in the second half of this year, detailed technical discussions will begin within its Working Groups (WGs).”

▲ Key milestones and objectives of the ITU and 3GPP by year

The standardization of 6G is a shared journey in which the world works together toward a common goal. As standardization efforts gain momentum, companies worldwide are moving quickly to position their technologies within this framework, ensuring interoperability while developing solutions that meet market demands.

Samsung’s 6G Leadership: Driving Consensus Amid Fierce Competition

Countries and companies around the world are participating in discussions on next-generation communications standardization, each taking on specific roles. This process demands forward-looking leadership capable of both steering technological development and harmonizing diverse viewpoints—a role where Samsung Electronics has emerged as a central figure, simultaneously advancing innovation while building industry consensus.

Standardization is a continuous process marked by fierce competition among countless global stakeholders that aim to secure a lead in standards by having their own technologies incorporated. In this complex landscape, Samsung has consistently been elected to leadership positions within groups, earning recognition for its neutrality, credibility and coordination capabilities

“Samsung chaired the ITU-R’s 6G Vision Group, helping to establish the initial global vision for 6G and contributing to the design of its early roadmap,” explained Han. “We’re also leading discussions within 3GPP by serving as chairs and vice chairs across various technical groups, steering the direction of standardization.”

Currently, Samsung Electronics holds a total of eight chair and vice-chair positions across 3GPP’s key Technical Specification Groups (TSGs). Han added, “In particular, the Radio Access Network (RAN) and System Architecture (SA) WG2 groups, where Samsung serves as chair, are central to shaping the structure and direction of 6G technologies. These groups are at the core of industry-wide technical discussions and the fact that Samsung chairs them is a testament to our influence.”

Samsung is also laying a solid technological foundation for standardization discussions through its pioneering research activities across various core 6G technologies. Since standardization only holds real value when it is backed by concrete technologies and practical feasibility, Samsung’s technological competitiveness contributes to making these discussions more effective.

“3GPP chairs are responsible for guiding discussions according to the timeline, while mediating and resolving various conflicts that arise during the standardization process,” Han explained. “Holding a significant number of chair positions is a clear sign that the mobile communications industry recognizes our technological capabilities and leadership.”

Key Focus Areas for Next-Generation 6G Research

As technical discussions within 3GPP begin in earnest this year, Samsung is concentrating its research on the core technologies necessary for 6G commercialization. At the heart of these discussions are three key phrases: AI integration, enhanced energy efficiency, and strengthened security.

“6G should deliver user-perceivable improvements, not just faster speeds or higher quality,” noted Han. “By applying AI technologies to network operations, we can automate complex processes while simultaneously reducing operational costs and improving service quality.”

“From the increasingly critical perspective of security and privacy, Samsung is also focusing on building safer communication systems while increasing system flexibility to easily and rapidly incorporate new services,” he added.

As we approach the 6G era — where technologies and services will connect seamlessly across national borders — international cooperation and coordination are more important than ever. In this evolving landscape, Samsung Electronics continues to play a leading role in shaping the global conversation on next-generation connectivity.

In part two of this series, Samsung Newsroom will explore the 6G standardization roadmap, key focus technologies and Samsung’s role as chair of the 3GPP TSG RAN, providing a closer look at the forefront of next-generation communications discussions.

¹ Short for the International Telecommunication Union (ITU), a United Nations specialized agency dedicated to advancing information and communication technologies (ICT) and networks. Its work includes allocating radio frequencies, establishing technical standards, and supporting developing countries, while playing a vital role in fostering international cooperation in the global ICT sector.
² Short for the 3rd Generation Partnership Project, an international collaborative initiative established to develop standards for mobile communication technologies. It primarily develops globally applicable specifications for mobile communication systems, including radio access networks, services and systems, core networks, and mobile devices.

Researcher HyoungJin Choi from Samsung Research was named chair of the Coordination Group on IMT-2030 (6G) at the ITU-R Working Party 5D (WP 5D) meeting held in Geneva, Switzerland from June 25 to July 2. It will be Choi’s second time chairing a group at the ITU-R involved in 6G standardization as he had previously led the 6G Vision Group from 2021 to 2023.

The Coordination Group will be responsible for defining the process for developing 6G technology standards as well as creating the submission template for candidate 6G technologies and reviewing candidate proposals.

The standardization of next-generation communications involves a highly competitive and collaborative process among different stakeholders.

In November 2023, the ITU-R released the IMT-2030 Framework Recommendation, outlining the future and general direction of 6G. By 2026, the ITU-R aims to establish the technical performance requirements of 6G technologies. These requirements will serve as the foundation for candidate 6G technologies to be developed by standards organizations like the 3rd Generation Partnership Project (3GPP)² and later submitted to the ITU-R. The ITU-R will then evaluate and coordinate the submissions, with technical specifications for 6G expected to be finalized by 2030.

With the IMT-2030 Framework Recommendation providing key performance indicators, usage scenarios and a roadmap for the standardization, spectrum and commercialization of 6G, the industry is now poised to embark on detailed standardization efforts. Moving forward, countries and companies will vie for leadership in setting 6G communications standards, including performance requirements and frequency bands.

Samsung will actively engage with influential standards organizations and continue developing innovative communications technologies en route to reinforcing its position as a global leader in 6G standardization.

¹ The ITU is the United Nations specialized agency for information and communication technologies (ICT) with memberships of 193 Member States and more than 1000 companies, universities, research institutes and international and regional organizations. The ITU’s Radiocommunication Sector (ITU-R) is responsible for regulating and standardizing global radio communication.
² 3GPP is dedicated to developing the global unified technical specifications for mobile communications.

Starting May 21, the Third Generation Partnership Project (3GPP), an initiative uniting the world’s leading telecommunications standard development organizations, will convene in Busan, Korea to complete communication standards, vital for the commercialization of 5G wireless communications. Samsung Electronics’ research into ultra-high frequency (mmWave) for 5G extends back to 2009 when the Dallas, Texas branch of Samsung Research, formerly known as the Digital Media & Communications (DMC) R&D center, fixed its sights on the ultra-high frequency above 6GHz.

Samsung Research’s Dallas, Texas branch, pictured in 2009

“We had a strong belief in the potential of ultra-high frequency, then considered uncharted space for the industry, and pushed forward in R&D, one step ahead of other companies,” said Sungho Choi, Vice President of the Standard Research Team at Samsung Research. “This was during a time when basically everyone in the telecommunications industry was busy preparing for the transition to 4G Long-Term Evolution (LTE), and there was great uncertainty as to what would come after.”

Early Efforts by Samsung Electronics

In 2009, the Dallas office initiated an in-depth study into next generation telecommunications technology and delivered a proposal on ultra-high frequency to Samsung Research. In the extensive 300-page report, ultra-high frequency, with the application of cutting-edge beamforming technology, was seen as the method to solve the challenge of ultra-high-speed, large-volume transmission.

This was at a time, however, when the dominant opinion of papers and books on telecommunications had doubt about the application of ultra-high frequency due to its drawbacks. However, believing in the potential of its discovery, in 2011, Samsung Electronics initiated an in-house project to expand upon research, and in the following year, Samsung Research established a “Next Generation Communications Lab,” accelerating the development of ultra-high frequency and 5G technologies.

As the culmination of its early efforts, Samsung Electronics’ successful demonstration of the world’s first 5G communications, with speed of 1Gpbs, made headlines in 2013, thanks to the close to four years of advanced research at a time when 4G LTE was enjoying its rise to the height of popularity.

In 2013, Samsung Electronics successfully demonstrated the world’s first 5G communications, at a speed of 1Gbps.

Finding the Optimal Band for 5G, 28GHz

The research into ultra-high frequency posed a critical question for the international community related to the ideal frequency band for 5G. At the time, nationally regulated frequencies, in the range between 0 and 300GHz, were already allocated for communications, broadcasting, science and military purposes. The challenge was encouraging as many countries as possible to use the same bands for 5G to accelerate standardization and commercialization.

“When beginning our research, we studied almost every ‘frequency map’ in the world,” said Juyeon Song, Principal Engineer of the Standard Research Lab at Samsung Research. “We arrived at the conclusion that the most applicable ultra-high frequency band is 28GHz.”

Propelling Standard Development After Approval of Ultra-High Frequency as the 5G Candidate Band

Samsung strived to continue technology development after identifying the optimal candidate band for 5G, 28GHz. However, researchers soon reached an impasse: persuading those countries, who had already allocated the band for core industries other than communications, as well as certain business segments, who were reluctant to rush the commercialization of 5G during the dominance of 4G.

“Witnessing the saturation point of using traditional frequencies below 6GHz, more countries began to pay attention to ultra-high frequency,” said Hyoungjin Choi, Principal Engineer of the Standard Research Lab at Samsung Research. “Targeting these countries and companies with a great interest in the utilization of the frequency band and commercialization of 5G laid the foundation for standardization.”

During the 2015 World Radiocommunication Conference (WRC), organized by the International Telecommunication Union (ITU), a specialized agency of the United Nations, the Korean government submitted a proposal on by Samsung. However, the issue was alignment with countries that wanted to use the ultra-high frequency band for services other than telecommunications services. During the ensuing four-weeks of marathon meetings, several ultra-high frequency bands were finally approved as candidate bands for 5G, propelling standardization.

Since WRC in 2015, with debate ongoing, Samsung has continued its efforts to advocate and serve as the leading proponent of 5G standardization, towards the aim of the development of technologies related to ultra-high frequencies. Read the second part of this special series for more on Samsung’s journey after 2016 to develop 5G standards, including 28GHz^* ultra-high frequency.

During the 2015 WRC, the Korean government submitted a proposal to utilize ultra-high frequency technology for 5G.

^*The 3GPP is standardizing more than 30 candidate bands from a low frequency of 600MHz to ultra-high frequency of 40GHz. 28GHz is the representative ultra-high frequency band which leading 5G countries are seeking to prioritize to realize 5G commercialization.