Wednesday, May 04, 2022

Boosts access reliability in wireless communications

Scientists propose RIS technology for grant-free massive access in wireless communications

TSINGHUA UNIVERSITY PRESS

RIS-assisted grant-free massive access scenario — IMAGE: ILLUSTRATION OF AN RIS-ASSISTED GRANT-FREE MASSIVE ACCESS IN A SMART FACTORY, WHERE A CLUSTER OF RIS SUBARRAYS WORKING IN THE REFRACTION MODE ARE DEPLOYED ON THE WALL OF THE FACTORY. view more
CREDIT: INTELLIGENT AND CONVERGED NETWORKS

With the emerging Internet-of-Things, that holds promise for operating everything from smart homes to smart cities, fifth-generation wireless communication must be able to handle the demands for low delay and high reliability. To meet these demands, researchers propose the use of reconfigurable intelligent surface technology for grant-free massive access to boost the reliability of the access in wireless communication.

The team, led by researchers from Beijing Institute of Technology, published their findings on April 29 in the journal Intelligent and Converged Networks at DOI: https://doi.org/10.23919/ICN.2022.0009.

Massive machine-type communications (mMTC) is vital to fifth-generation (5G) wireless communication. In mMTC, the communication between machines over wired and wireless networks takes place with little or no intervention from humans. The emerging Internet-of-Things requires this kind of communication with minimal delay and high reliability. In the Internet of Things, machines, sensors, and robots have to be connected to run technologies ranging from smart home security systems to wearable health monitors to wireless inventory trackers to biometric cybersecurity scanners.

To meet the demands of the Internet of Things applications demanding low latency and high reliability, grant-free random access has been proposed as a promising enabler that can simplify the connection procedures and significantly reduce access delays. With grant-free random access, channel resources can be accessed without undergoing a handshake process.

The research team is exploring the reconfigurable intelligent surface (RIS) as a possible solution to these demands. An RIS is a programmable structure where the electric and magnetic properties of the surface can be changed. “We propose to leverage the burgeoning reconfigurable intelligent surface for grant-free massive access working at millimeter-wave frequency to further boost access reliability,” said Xingyu Zhou, lead study author from the Advanced Research Institute of Multidisciplinary Sciences, Beijing Institute of Technology.

Scientists have viewed RIS as an enabling technology for next generation wireless communication networks because of its ability to substantially improve the link quality and the coverage range. An RIS consists of numerous programmable passive elements with ultra-low power consumption and low hardware costs. The RIS can reconfigure the propagation of incident electromagnetic waves by attaching phase shifts that can be controlled independently controllable for each element.

The team studied a scenario that involved a cluster of RIS subarrays operating in reflection mode to assist the grant-free massive access in a smart factory. The RIS subarrays offer an additional degree of freedom and the appropriate refraction matrices design. In the grant-free access models, the most challenging problems are active device detection (ADD) and channel estimation (CE), called joint-ADDCE or JADDCE. By using theoretical derivation, where the scientists draw conclusions from other known assumptions, the team was able to show that the challenging JADDCE problem in this context has the same mathematical form as the traditional grant-free massive access. So they used the efficient approximate message passing (AMP) algorithm, to overcome the JADDCE challenges. Finally, to demonstrate the effectiveness and superiority of their proposed scheme, the team carried out numerical simulations to compare their scheme with the state-of-the-art solutions. Their scheme improved the access channel conditions and enhanced the quality of access services in the smart factory scenario.

Looking ahead the team members see the potential for wide-ranging applications. “Our proposed scheme can be widely used in the future Internet of Things network, such as in smart factories or smart cities, to enhance the efficiency of massive access,” Zhou said. “In future work, we will further exploit the powerful AI tool to implement signal processing more efficiently. Meanwhile, we will evaluate the effectiveness of our proposed scheme from more dimensions and indicators.”

The members of the research team include Xingyu Zhou, Keke Ying, Shicong Liu, Malong Ke, Zhen Gao, and Mohamed-Slim Alouini.

The paper is also available on SciOpen (https://www.sciopen.com/home) by Tsinghua University Press.

###

About Intelligent and Converged Networks

Intelligent and Converged Networks is an international specialized journal that focuses on the latest developments in communication technology. The journal is co-published by Tsinghua University Press and the International Telecommunication Union (ITU), the United Nations specialized agency for information and communication technology (ICT). Intelligent and Converged Networks draws its name from the accelerating convergence of different fields of communication technology and the growing influence of artificial intelligence and machine learning.

About SciOpen

SciOpen is a professional open access resource for discovery of scientific and technical content published by the Tsinghua University Press and its publishing partners, providing the scholarly publishing community with innovative technology and market-leading capabilities. SciOpen provides end-to-end services across manuscript submission, peer review, content hosting, analytics, and identity management and expert advice to ensure each journal’s development by offering a range of options across all functions as Journal Layout, Production Services, Editorial Services, Marketing and Promotions, Online Functionality, etc. By digitalizing the publishing process, SciOpen widens the reach, deepens the impact, and accelerates the exchange of ideas.

JOURNAL

Intelligent and Converged Networks

DOI

10.23919/ICN.2022.0009

ARTICLE TITLE

Reconfigurable Intelligent Surface Assisted Grant-Free Massive Access

Target active and passive eavesdropping

for improving communications security

Peer-Reviewed Publication

TSINGHUA UNIVERSITY PRESS

Two-phase secure communication system — IMAGE: TWO-PHASE SECURE COMMUNICATION SYSTEM view more
CREDIT: INTELLIGENT AND CONVERGED NETWORKS

Scientists have developed an intelligent reflecting surface technique to improve the security of communication systems. The IRS-aided technique achieved more secure communication in scenarios involving both active attacks and passive eavesdropping on a two-phase communication system. The research team, with scientists in China and the United Kingdom, published its findings on April 29 in the journal Intelligent and Converged Networks at DOI: https://doi.org/10.23919/ICN.2022.0001.

In recent years, the intelligent reflecting surface (IRS) has emerged as a promising technique that enhances the function and capabilities of wireless networks. An IRS, also known as a reconfigurable intelligent surface (RIS), is a programmable structure consisting of large amounts of passive and low-cost reflecting elements. The research team has shown that the IRS can change the reflection direction of a signal, allowing it to enhance the received signals coming from legitimate users, while also suppressing the signals coming from the eavesdropper. The IRS holds the potential to lessen the interference, extend the coverage area, and improve the physical layer security communication. Its ease of use is a plus too. The IRS can be readily coated on existing buildings, for example on ceilings and walls, which reduces both the cost and complexity of installing it. “The IRS provides a cost-effective and energy-efficient approach, thus holding great promise for security enhancement,” said Gui Zhou, a lead author on the study and a Ph.D. candidate at Queen Mary University of London.

Generally, eavesdroppers work in two ways. In an active attack, the eavesdropper pretends to be a legitimate user and misleads the base station into sending signals toward it during the channel estimation procedure. By comparison, a passive attack is even more challenging to detect because the passive eavesdropper can hide itself. Previous research has shown the benefits of IRS in physical layer security under the threat of active attacks. But that earlier research often assumed perfect channel state information for the eavesdropping channels at the base station. Those conditions are both strict and impractical. Where the previous research has explored imperfect channel states, they were looking at scenarios involving active attacks. This new research is the first to examine the scenario of passive eavesdropping in IRS-aided secure communication.

In the scenario that the team studied involving a two-phase communication system, the base station avoided direct transmission to the attacked user in the first phase. Then other users cooperated in forwarding signals to the attacked user in the second phase, with the help of IRS and energy harvesting technology.

The team proposed this IRS-aided two-phase secrecy communication scheme for a scenario where the eavesdropper has a similar channel direction as a legitimate user. They chose this scheme in order to acquire high-quality eavesdropping information. In specific terms, the base station transmitted signals to the legitimate user with low transmission power during the multicasting phase to reduce information being leaked to the eavesdropper. In the user cooperation phase, other legitimate users used the energy harvested in the previous phase to forward the received signals to the attacked legitimate user with the assistance of IRS. The team studied both active attack and passive eavesdropping in this scenario.

During the eavesdropping scenario and in the presence of partial channel state information, the team investigated a beamforming design problem. In beamforming, the wireless signal is focused on a specific receiving device, instead of being broadcast in all directions, resulting in faster, more reliable connections. During both the active attack and the passive eavesdropping, with partial channel state information, the team developed a beamforming design that maximizes the security rate.

Looking ahead to future studies, the researchers say that their next step is to consider a situation where a reflection link exists between the base station and IRS, where the eavesdropper can also receive the information leaked from the IRS at the first phase. This would increase the obstacle of eavesdropping suppression. “The ultimate goal is to use IRS technology to improve physical layer security under imperfect channel state information,” said Zhou.

The research teams include Gui Zhou and Kok Keong Chai from Queen Mary University of London, United Kingdom; Cunhua Pan and Hong Ren from Southeast University, China; Kezhi Wang from Northumbria University, United Kingdom; and Kai-Kit Wong from University College of London, United Kingdom.

The paper is also available on SciOpen (https://www.sciopen.com/home) by Tsinghua University Press.

###

About Intelligent and Converged Networks

About SciOpen

JOURNAL

Intelligent and Converged Networks

DOI

10.23919/ICN.2022.0001

ARTICLE TITLE

User cooperation for IRS-aided secure MIMO systems

Timing, among other factors, improves aging in next-generation wireless communications

Peer-Reviewed Publication

TSINGHUA UNIVERSITY PRESS

An RIS-assisted communication system with K mobile users. — IMAGE: A MULTI-USER MISO COMMUNICATION SYSTEM IS CONSIDERED, WHERE A BS EQUIPPED WITH NT ANTENNAS SERVES K (K < NT) SINGLE-ANTENNA USERS. THE COMMUNICATION IS ASSISTED BY AN RIS COMPRISING OF M NEARLY-PASSIVE REFLECTING ELEMENTS AND ONE RIS MICRO-CONTROLLER. WE ASSUME THAT THE BS AND THE RIS KEEP STATIC AND THE USERS ARE MOVING WITH THE SAME VELOCITY. view more
CREDIT: INTELLIGENT AND CONVERGED NETWORKS

In wireless communications, channels can not only change, but they can also age. For contemporary systems, these connections between the transmitter and the receiver break down over time, user movement and power dissipation. Understanding how channels age in future systems, as well as how to mitigate such issues, are key to developing the next generation of wireless communications, according to an international collaboration studying the topic in reconfigurable intelligent surface (RIS)-assisted systems.

They published an analysis of how RIS-assisted communication systems perform under channel aging on April 29 in Intelligent and Converged Networks at DOI: https://doi.org/10.23919/ICN.2022.0002.

RISs are arrays comprising individually programmable and controlled circuits that can dynamically reflect signals and may be the linchpin platform to achieve 6G wireless communications, according to first author Yan Zhang, School of Electronic and Information Engineering, Beijing Jiaotong University.

“Investigating the performance of RIS-assisted communication systems under the condition of channel aging can verify whether deploying an RIS in a wireless communication system can reduce the adverse impact of channel aging on system performance and how much performance gain it can bring,” Zhang said. “This is helpful to provide a theoretical basis for the system optimization design of RIS-assisted communication systems.”

All three components of the communication system can move: the RIS may be a satellite, the base station moves as the Earth rotates and the users are unpredictably mobile. Add in modifications to the communication environment, such as physical barriers or weather interference, and the channels of communication will continuously change over time.

“These factors lead to the so-called channel aging phenomenon where the channels vary across time with correlated channel variables in a transmission,” Zhang said. “Channel aging results in a mismatch between the current and estimated channels that degrades the system performance. But, to the best of our knowledge, there is a lack of studies on the impact of channel aging on RIS-assisted communications systems. Since RIS will help evolve wireless communication, it is of great importance to analyze how RISs can improve the channel quality with user mobility.”

The researchers examined how deploying an RIS in a wireless communication system affects the adverse impact of channel aging on system performance. They modeled a system in which a base station simultaneously sends signals to an RIS and to individual cell phone users. The RIS reflects the signal to the same users, duplicating and strengthening the signal. In this model, the RIS and base station are stationary while the users are moving in a single direction at the same velocity, such as on a highway.

The system mathematically estimates the best channel to send a signal, depending on location, movement, potential barriers and several other factors. The channel varies from the time it is estimated to when it is used to send or detect the signal — this is the aging phenomenon.

“Due to the existence of an extra end-to-end signal propagation path established by the RIS, we found that RISs can reduce the adverse effects of channel aging on the communication system, as well as improve the overall system performance, compared to systems without an RIS,” Zhang said, “Moreover, the system performance improved as the total transmit power and the number of antennas at the base station, the number of the RIS’s reflecting elements and the temporal correlation coefficient increased.”

But, Zhang said, while the RIS can increase transmission capacity by adding reflecting elements, it does not have infinite capacity since it will eventually become saturated.

“This analysis is helpful in providing a theoretical basis for the system optimization design of RIS-assisted communication systems,” Zhang said. “The study can be further generalized along with several promising future work directions, as well. For example, we can apply this approach to the study of spatially correlated fading and more efficient channel estimation methods, to name just a few.”

Other contributors include Huahua Xiao, ZTE Corporation, State Key Laboratory of Mobile Network and Mobile Multimedia Technology; Jiayi Zhang, School of Electronic and Information Engineering, Beijing Jiaotong University; Bo Ai, State Key Laboratory of Rail Traffic Control and Safety, Beijing Jiatong University; and Derrick Wing Kwan Ng, School of Electrical Engineering and Telecommunications, University of New South Wales.

The National Key Research and Development Program of China, the National Natural Science Foundation of China, the Beijing Natural Science Foundation, the Natural Science Foundation of Jiangsu Province, the Royal Society Newton Advanced Fellowship, the Frontiers Science Center for Smart High-Speed Railway System, the Project of China Shenhua, the Fundamental Research Funds for the Central Universities in China, ZTE Corporation, the State Key Laboratory of Mobile Network and Mobile Multimedia Technology, the UNSW Digital Grid Futures Institute and the Australian Research Council’s Discovery Project funded this research.

The paper is also available on SciOpen (https://www.sciopen.com/home) by Tsinghua University Press.

###

About Intelligent and Converged Networks

About SciOpen

JOURNAL

Intelligent and Converged Networks

DOI

10.23919/ICN.2022.0002

ARTICLE TITLE

"Performance analysis of reconfigurable intelligent surface assisted systems under channel aging"

The promise and challenge of reconfigurable intelligent surfaces

Peer-Reviewed Publication

TSINGHUA UNIVERSITY PRESS

The world is more connected than ever before, with reliable and consistent wireless communications transmitting to and from individual users — but the technology is evolving to something even better, according to an international research team.

They published an overview of the next-generation technology, called reconfigurable intelligent surfaces (RISs) on April 29 in Intelligent and Converged Networks at DOI: https://doi.org/10.23919/ICN.2022.0007.

A RIS is an array of dynamic yet passive elements that can be individually and independently controlled to precisely direct a transmission signal from a base station to a mobile user.

“The RIS is an emerging technology, which will hopefully bring a new revolution in wireless communications,” said paper author Muhammad Siddiqi, a graduate student in electronics engineering at Tsinghua University. “RIS has gained enormous attention in recent years by researchers of different communities, and therefore, several research papers have been published in this regard. However, there are still some important open problems that need to be solved.”

In this paper, the researchers provide a comprehensive survey on the emerging RIS technology and discuss key aspects from existing research, including challenges. From detailing RIS models to probing basic transmission principles in the context of RIS to examining prototyped RIS-aided communication systems, the researchers emphasize the promise of RIS while simultaneously stressing caution.

“To provide deep insight on the individual topics, we have given some examples to show the importance of RIS technology in future wireless systems,” said paper author Talha Mir, assistant professor of electronic engineering, Balochistan University of Information Technology, Engineering, and Management Sciences. “We also highlighted the key challenges and provided some opportunities to guide readers for future research trends in the field of RIS-aided communications.”

For example, RISs differ from conventional antenna arrays because they do not perform complex signal processing on incoming transmissions to send them to the intended receiver. Instead, they simply reflect the transmitted signal from the base station to the mobile user. The individual cell units of the RIS are passive unless one needs to be adjusted to achieve the correct angle for a particular signal. Even that adjustment, however, does not require complex processing.

“RIS technology does not incur additional noise while retransmitting the incident wave, which is a substantially unique feature from conventional wireless communication systems,” Siddiqi said. “That’s one new opportunity RISs bring to researchers in the fields of information theory, electromagnetics, wireless communications and signal processing.”

While the opportunities exist, so do the challenges, the researchers said. RIS may not add noise to a signal, but the best approach to estimating and transmitting along a channel remains debatable.

“The channel model of a RIS is still controversial, since some analytical results in existing papers have not been verified by experiments yet,” Mir said. “We are not yet sure, among existing available models, which one will be the best choice for practical scenarios.”

The researchers found the same cautious optimizing in several other areas of RIS research, including performance analysis and RIS implementation, among others.

“It is expected that RIS will be an important research topic in the years to come as it has the potential to create a new horizon in the field of wireless communications,” Mir said. “We believe that RIS technology will become an integral part of future wireless communications, once we answer some important yet challenging questions.”

The paper is also available on SciOpen (https://www.sciopen.com/home) by Tsinghua University Press.

###

About Intelligent and Converged Networks

About SciOpen

JOURNAL

Intelligent and Converged Networks

DOI

10.23919/ICN.2022.0007

ARTICLE TITLE

"Reconfigurable Intelligent Surface-Aided Wireless Communications: An Overview"

ARTICLE PUBLICATION D

How a bot beamed from California to Japan may prevent cancer patients from losing their breasts unnecessarily

Peer-Reviewed Publication

GLOBAL ALLIANCE FOR GENOMICS AND HEALTH

Too many women are getting unnecessary mastectomies and other invasive procedures because of a knowledge gap about differences in cancer genes. A new study offers a path to closing the gap.

Nearly a decade ago, Angelina Jolie made famous that preventative mastectomies can help women with BRCA gene mutations — changes that alter gene function. These women may have more than four times higher than normal chances of getting breast cancer. Mutations in BRCA genes can also increase risks for ovarian, pancreatic, and prostate cancer.

Far fewer headlines covered the fact that around 40% of changes to the BRCA1 and BRCA2 genes are a black box. Are these gene variants harmful, harmless, or somewhere in between? Scientists don’t fully know — and that carries consequences.

“The evidence is that people with variants of uncertain significance are overtreated, because people just see it as a bit of a red flag and can’t help thinking it must be important,” said Amanda Spurdle, a cancer epidemiologist at QIMR Berghofer Medical Research Institute near Brisbane, Australia.

A 2017 study found up to half of surgeons prescribed the same treatment whether a BRCA variant was uncertain or known to cause disease. Women with uncertain variants commonly underwent double mastectomies, a painful procedure with serious risks. Other cancer treatments, like ovary removals, may prevent people from having children. (People of all genders may be tested and treated for BRCA gene mutations.)

Even just receiving genetic test results indicating “variant of uncertain significance” can lead to anxiety in both patients and their clinicians.

Researchers have the tools to crack which variants are harmful or harmless. But they lack the raw materials, which are locked away in highly-protected databases of people’s genomes and medical records.

Share the data recklessly, and depending on where they live, patients could risk losing their jobs, health insurance, civil liberties, and trust in healthcare. Scientists could run afoul of the EU’s General Data Protection Regulation (GDPR) and other rules that carry serious penalties for infractions.

Keep the data completely private, and thousands of people may undergo difficult treatments, such as losing their breasts and ovaries, for no reason — or find out about their serious risk of cancer far too late.

Now, for the first time, researchers have used a data-sharing innovation called “federated analysis” to categorise 16 uncertain variants as benign or likely benign.

Patients with those variants may be able to skip invasive and irrevocable surgeries.

“Those women can let out a big sigh of relief and go on with their lives,” said Melissa Cline, senior author on the paper and a University of California, Santa Cruz research scientist. Cline serves on the Steering Committee of the Global Alliance for Genomics & Health (GA4GH), the international genomic standards-setting organisation.

A GLOBAL SOLUTION COMMENCES OVER COFFEE

Several years ago, Cline co-founded the BRCA Exchange to share the latest findings on which variants cause harm, format the data using GA4GH standards so everyone can understand them, and share crucial information with patients and clinicians. GA4GH helped launch the Exchange as one of its Driver Projects, now championed by Spurdle and Cline.

But the team ran into a problem. Mystery variants often crop up in just a handful of individuals per dataset, or none at all. To confidently label a variant harmful or benign, researchers don’t just need more data — they need to link up more databases, in order to better approximate the world’s great genetic diversity.

“The global approach to variant interpretations is really important, because you may get information from one dataset that you wouldn’t get from another,” said Spurdle, who co-authored the new paper.

“So if you found a rare variant in, say, African Americans, but then you see it’s extremely common in Outer Mongolia, that straightaway tells you it can’t be causing higher risk of breast cancer or ovarian cancer,” she said.

Yet many genomic studies overwhelmingly look at people with European ancestry, an imbalance compared to global populations.

In October 2018, BRCA Exchange leaders travelled to Basel, Switzerland, for the Plenary Meeting of GA4GH.

During a coffee break, one of Cline’s collaborators spotted Yukihide Momozawa, an investigator at Japan’s RIKEN Center for Integrative Medical Sciences, and they started chatting. Did Momozawa know about the BRCA Exchange’s database of variants? What kind of data could he share from his recent study of 7,051 Japanese women confirming several harmful variants for breast cancer?

That conversation over coffee sparked a collaboration to link up databases in order to better understand tricky variants.

But a major hurdle remained: Momozawa could not transfer the BioBank Japan data. Due to government privacy regulations, records of patient health, tumours, and genetics almost never left the RIKEN servers in the seaside city of Yokohama, south of Tokyo.

8,361 kilometres away in the redwood forests of California, Cline turned to a pioneering new approach: federated analysis.

BRINGING CALIFORNIA CODE TO JAPANESE DATA

With enormous potential to speed the rise of medical treatments tailored precisely to people’s genes, federated analysis is a clever idea.

Instead of downloading health data to your own computer, or convincing institutions to pool their patient records in a central hub — each a political and ethical minefield — you bring your code to the data.

“Data custodians rightly need to protect the data in their care and respect the consent and governance associated with that data,” said Susan Fairley, GA4GH Chief Standards Officer. “Through a ‘pipelines to the data’ model, data custodians retain control over data use and access, while researchers can minimise time-consuming data transfers.”

In California, Cline and her team assembled a “container” — a virtual computational machine or “bot” that could visit Momozawa’s data and run a series of tests. The bot relied on standard ways of describing health data, including the GA4GH Variant Call File Formats. The researchers shared their software on Dockstore, enabling researchers around the world to find and apply it using the Tool Registry Service (TRS).

To ensure their bot followed the rules while visiting RIKEN’s data, the Santa Cruz team consulted with Adrian Thorogood, formerly the GA4GH Regulatory & Ethics Work Stream Manager.

“GA4GH frameworks like the Ethics Review and Recognition Policy are important for federated analysis, because it becomes a bit blurred who’s doing the research and, thus, which institution’s research ethics board should be overseeing it,” said Thorogood, now a research and development specialist in law and ethics at the University of Luxembourg.

“The federated approach potentially simplifies trust for individuals,” he added. “They know that there’s only one copy of their data, maintained by an organisation they’ve actually interacted with, rather than having to trust unknown institutions around the world.”

Once filled with all the key components, the container docked in Yokohama.

“One important issue was to make sure the software behaved in our institute as it was developed to behave,” said Momozawa.

His team ran the software on RIKEN servers and collaborated with the Santa Cruz group to fix a few problems. They also conducted crosschecks to show the analysis was sound.

“We were able to use tumour pathology data to replicate a table in one of Momo’s earlier papers to verify that the software was working properly,” said Cline, referring to Momozawa by nickname.

Next, the bot sent its findings another 7,140 kilometres to the QIMR Berghofer Medical Research Institute, near the skyscraper-lined banks of the Brisbane River.

“We received summary information,” said Spurdle. “We wouldn’t know what the patient ID numbers were — we just knew that there were, say, three people with one variant who’d had breast tumours and were 40 to 45 years old.”

Spurdle and colleagues used a number of statistical tricks to comb through the summary data and find new evidence about whether or not a variant would cause cancer.

“Our collaboration yielded better interpretation of several variants, contributing to better personalised medicine,” Momozawa said. That included the 16 variants of previously uncertain significance, now clearly labelled “benign” or “likely benign.”

Finally, the knowledge journeyed back across the Pacific to Santa Cruz, where it was added to the BRCA Exchange database. Patients with those variants can now feel more confident about their true risks when deciding about surgeries and other procedures.

SHARING KNOWLEDGE WITHOUT SHARING YOUR DATA

Federated analysis is poised to help fill the genetic risk knowledge gap — leading to fewer unnecessary medical treatments, and more patients discovering their danger in time.

And not just for breast cancer: the Canadian CanDIG and African, Canadian, and European CINECA projects use federation to build large networks of health data to help tackle heart conditions, infectious disease, and beyond.

Cline and Spurdle see great potential for federated analysis to open up knowledge in many locations, from diagnostic companies, to the ENIGMA Consortium for analysis of variants in breast-ovarian cancer genes, to stores of human samples in Europe locked away by GDPR data privacy laws.

“If we can get our friend Momo to do this, then maybe we could go to our friend, say, in Saudi Arabia who had a dataset they couldn’t release,” said Spurdle.

Because the bot the team developed uses the GA4GH Workflow Execution Service (WES), its software can communicate with different computing and cloud environments around the world.

To make this kind of technical knowhow for visiting data more widely available, GA4GH is actively building federated analysis tools into a regularly-updated Starter Kit for researchers.

“The work of Melissa Cline and collaborators is a great example of why global data sharing is so important. Information from around the world, when shared, can massively improve our capacity to interpret genomic variation — to the benefit of everyone. It is to support this type of work that GA4GH creates standards and policies that will let researchers responsibly access information, including through federated analysis,” said Fairley, the GA4GH CSO.

“Through initiatives to further integrate our standards and apply them to real-world problems, such as through the Federated Analysis Systems Project (FASP), we hope to support the development of the global, standardised infrastructure needed to see the full benefits of genomics for human health,” added Fairley.

All told, it took a round-trip journey of 26,881 kilometres to arrive at an improved understanding of the genetics of breast cancer. Yet intimate details of bodies and lives stayed exactly where patients left them.

“For a number of collaborators, they cannot release protected data from their building, let alone their country. Federated analysis looks like a great route forward for allowing those scientists to share knowledge from their data,” said Cline.

JOURNAL

Cell Genomics

DOI

10.1016/j.xgen.2022.100109

ARTICLE TITLE

Federated analysis of BRCA1 and BRCA2 variation in a Japanese cohort

More formal education may translate to better health for Black women

Peer-Reviewed Publication

MEDICAL COLLEGE OF GEORGIA AT AUGUSTA UNIVERSITY

More formal education may translate to better health for Black women — IMAGE: DR. JUSTIN X. MOORE view more
CREDIT: MICHAEL HOLAHAN, AUGUSTA UNIVERSITY

AUGUSTA, Ga. (May 3, 2022) – One of the best things Black women can do for their health may be to get a college education, according to results of a national analysis.

“Essentially what this study observed was that for Black women, the higher your education level, the lower your allostatic load,” says Dr. Justin Xavier Moore, epidemiologist at the Medical College of Georgia and Georgia Cancer Center, referencing the impact the wear and tear of chronic stress and life have on the body and health.

Investigators led by Moore looked at data on 4,177 Black women ages 18 and older from the National Health and Nutrition Examination Survey, or NHANES, collected between 1999-2018.

While Black women have generally been shown to have higher allostatic loads than other race-gender groups, including Black men, higher education appears to help reduce their load, Moore and his colleagues report in the journal BMC Women’s Health.

High allostatic load is considered to have a broad, negative impact on the body including accelerating aging, memory decline and increasing the risk for top killers like cardiovascular disease and cancer.

The investigators found that Black women with a college or higher degree had a 14.3% lower prevalence of high allostatic load compared to their counterparts with less formal education; an 18% lower prevalence when compared to those with less than a high school education.

Women with higher education represented nearly 18% of the women in the study overall. In general, they also had a lower number of pregnancies, fewer reports of depressive disorder, fewer smokers and a lower mean waist circumference. They also reported fewer health problems like chest pain and heart attack.

Even controlling for age, poverty status and underlying chronic diseases, the investigators found that Black women without a college degree had a higher prevalence of higher allostatic load.

Even women who report high racial discrimination rates have lower allostatic loads if they have more formal education, the investigators write.

Others have shown that Black women with lower levels of formal education have higher levels of the stress hormone, epinephrine, or adrenaline, and a larger waist circumference but few studies have looked specifically at educational attainment, rather included education more broadly in the context of socioeconomic status, Moore says.

Their study does not say that education causes a low allostatic load, it says they are associated, Moore notes.

Their findings do further confirm that higher education is a social determinant of health, Moore says, which the Centers for Disease Control and Prevention defines as “conditions in the places where people live, learn, work and play that affect a wide-range of health and quality of life risks and outcomes.”

For the study, allostatic load was defined as the total of abnormal measures of eight indicators of health that include top and bottom blood pressure numbers, total cholesterol and triglyceride levels in the blood, body mass index, or BMI, (height to weight ratio), glycosylated hemoglobin levels (higher levels indicate a higher blood sugar level, a risk for diabetes), blood levels of creatinine (an indicator of kidney function) and albumin (an indicator of kidney and liver function as well as inflammation and infection).

They examined a broad array of health data like age of onset of menses, number of pregnancies and bouts of depressive disorder, smoking status and diagnosed physical illnesses like cancer and heart failure, as well as factors like income.

More study is needed to further explore issues like the specific degrees the women obtained and the overarching issue of how more education might mitigate allostatic load. That includes further exploring issues like the “superwoman schema,” often attributed to Black women, which reportedly can both positively and negatively affect their health as they strive to put a strong front to the world and sacrifice to help others.

“If we really want to understand why this is happening, then we need to do cohort studies where we follow people over time,” Moore says, assessing biomarkers at the onset and then over time put together which factors contributed to a high allostatic load.

Hypotheses could include because the college-educated women likely have higher incomes, they have health insurance and can more likely pay to see a mental health professional if they need help dealing with their stress, Moore says. You may also be more likely to have a place and the time to go for a walk or run to release stress, he says, while a lower socioeconomic status means less options in terms of coping. “If you have a lower income, you may barely be able to afford anything. You are just trying to make it from day to day. You don’t have the money, or time or ability to get to the resources,” Moore says.

Moore was a coauthor on a paper published in the International Journal of Environmental Research and Public Health this year that also found Black men with college degrees have a lower prevalence of high allostatic load than those with lower levels of educational attainment.

In a study published last year in the journal Preventive Medicine, Moore and his colleagues used the same data source, NHANES, to look at allostatic load over 30 years in 50,671 individuals and found adults age 40 and older had more than a twofold increase over that period, and that regardless of the time period, Black and Latino adults has an increased risk of a high allostatic load over their white counterparts. Black and Latino women had the highest allostatic scores. “At age 20, their allostatic load was comparable to their 30-year-old counterparts,” says Moore, a trend that persisted throughout their life course.

NHANES is a CDC program that uses physical examinations and interviews to assess the health and nutritional status of adults and children in the United States.

The research was funded by the National Institute on Minority Health and Health Disparities.

Read the full study.

JOURNAL

BMC Women s Health

ARTICLE TITLE

Examining educational attainment and allostatic load in non-Hispanic Black women

Science has spoken: Tell the truth on Facebook or risk your reputation

Humble behavior equals better impressions

Peer-Reviewed Publication

UNIVERSITY OF HOUSTON

Adam Fetterman, assistant professor of psychology and director of the Personality, Emotion, and Social Cognition Lab at the University of Houston — IMAGE: ADAM FETTERMAN, ASSISTANT PROFESSOR OF PSYCHOLOGY AND DIRECTOR OF THE UNIVERSITY OF HOUSTON PERSONALITY, EMOTION, AND SOCIAL COGNITION LAB, FOUND THAT THE BEST COURSE OF ACTION ON SOCIAL MEDIA IS TO BE HUMBLE AND PUBLICLY ADMIT YOU ARE WRONG IF YOU ARE. view more
CREDIT: UNIVERSITY OF HOUSTON

Online social networks (OSN) like Facebook and Twitter have created a space for people to easily express their opinions, which can encourage open dialogue and stimulate plenty of disagreements. Research now reveals that just like in face-to-face relationships, intellectually humble behavior, like admitting when you are wrong, leads to better impression formation online.

“Willingness to engage in wrongness admission is positively correlated with agreeableness, openness to experience, honesty/humility and emotional intelligence,” reports Adam Fetterman, assistant professor of psychology and director of the Personality, Emotion, and Social Cognition Lab at the University of Houston in the journal Social Psychology. “With potentially hundreds (or more, depending on their privacy settings) of passive witnesses, the user can admit that they are wrong or avoid doing so. We found that the OSN user’s best course of action, here, is to publicly admit that they are wrong.”

In other words, like the old statesman Benjamin Franklin advised in the 1700’s, ‘Honesty is the best policy,’ at least if you want people to think well of you online.

In four experiments, participants read a staged argument on a Facebook wall – a section of Facebook that allows users to post information and engage in discussion – between two users. The argument was focused on a made-up food additive and reflected common themes of health food discourse on OSNs at the time of the study to increase realism.

The final post by Participant A contained the manipulation. In one (admission) condition, Participant A ended the conversation by posting, “…I guess I am wrong and you are right on this. Thanks for posting those links and thanks for the conversation!” In the other (refuse) condition, Participant A ended the conversation by posting, “…I still think I am right and you are wrong. Thanks for posting those links and thanks for the conversation!”

“Those who witnessed an OSN user engage in wrongness admission rated that user as higher in communion and competence traits compared witnessing a user not engaging in wrongness admission,” said Fetterman. “Furthermore, we found that those in the wrongness admission condition were more likely to indicate interest in interacting with the admitting user compared to those in the nonadmission conditions.”

Humans have an inherent need to form and maintain relationships but forming them online can be tricky with people gathering information about you based merely on textual and pictorial information posted.

“People tend to form the most positive impressions for those on OSNs who display communal, open and humble online behaviors,” said Fetterman. “Wrongness admission serves as a cue of intellectual humility, communion, and competence. Although the admitter is telling onlookers that they have been incompetent in this instance, it suggests that they are willing to work together and that they are competent enough to recognize faulty knowledge and change it.”

In a humorous ending to the research report, Fetterman concludes: “Therefore, wrongness admission on OSNs appears to lead to better impression formation outcomes than not admitting. At least, that is what we can conclude until someone provides evidence that we are wrong.

If such a time comes, we will never admit it.”

JOURNAL

Social Psychology

ARTICLE TITLE

When You Are Wrong on Facebook, Just Admit It

PRISON NATION USA

Punishments for violating supervised release may violate constitutional rights

New legal analysis finds that revocation of supervised release is often used as an alternative to prosecution and a tool of immigration enforcement

Peer-Reviewed Publication

PENN STATE

UNIVERSITY PARK, Pa. — People who violate their supervised release — a period of community supervision after release from prison — by committing new crimes are punished not only for their crimes, but also for violating their supervision. In a new paper to be published in the Virginia Law Review, Jacob Schuman, assistant professor of law, Penn State, conducted the first comprehensive examination of how revocation of supervised release for new criminal conduct contributes to mass incarceration — a term referring to the high rates of incarceration in the United States. He also investigates how these punishments are used as a tool of immigration enforcement.

“Every year, approximately 50,000 federal prisoners finish their prison sentences and begin serving terms of supervised release, with the average term of post-release supervision lasting 47 months,” said Schuman. “Approximately one-third of these defendants are eventually found in violation of their supervised release and sent back to prison — about half the time for non-criminal conduct, like missing a meeting or skipping curfew (technical violations), and the other half for new crimes, which I call ‘criminal violations.’”

What’s unique about criminal violations, Schuman explained, is that they are also punishable through criminal prosecution. By revoking supervised release for criminal violations in addition to prosecuting them, the government can add years to people’s sentences, sometimes even doubling them.

For example, Schuman, who was a public defender in Philadelphia prior to joining the faculty at Penn State, described a case in which he represented a woman who was addicted to drugs and was selling them to support her habit. The woman was sentenced to four years in prison, along with four years of supervised release.

“During her supervised release, she was again caught selling drugs,” said Schuman, “so she received a new sentence of four years for selling the drugs, along with another four years in prison for violating her supervised release, for a total of eight years in state and federal prisons. In other words, her sentence was effectively doubled.”

In his research, Schuman examined (1) the extent to which criminal violations of supervised release contribute to incarceration, (2) the ways that revocations of supervised release may be used as an additional justification for punishing criminal conduct and as an easier alternative to criminal prosecution and (3) the use of supervised release as a tool of immigration enforcement.

According to Schuman, advocates for criminal justice reform typically focus on technical violations because they involve less serious conduct. However, he said, focusing only on technical violations misses a major part of the story. Criminal violations, his research revealed, contribute the majority of prison time imposed through revocation of supervised release. Despite the violations being more aggravated, he argued, the punishment still warrants examination for constitutionality and fairness.

To determine the amount of punishment resulting from criminal violations, Schuman examined data from the U.S. Sentencing Commission’s first report on supervised release violations, published in July 2020. The report gathered data from more than 100,000 revocation hearings in federal district courts between 2013 and 2017. By analyzing these data, Schuman found that criminal violations accounted for two-thirds of the total prison time imposed.

“This equates to about 8,200 years of imprisonment imposed by federal judges annually through revocations of supervised release for criminal violations, on top of the many years of imprisonment imposed through prosecutions for the crimes themselves,” said Schuman. “In my paper, I argue that these revocations inflict unfair double punishment and erode constitutional rights.”

Schuman noted that the government may use revocation of supervised release as an easier alternative to criminal prosecution. For example, Schuman described a case in which a man on supervised release was prosecuted for assault and won at trial with a “not guilty” verdict. Nevertheless, the court still revoked the man’s supervised release as a way to send him back to prison. “The fact that a jury is required to try a criminal case but not to revoke supervised release raises serious questions about the constitutionality of the supervised-release system.”

Indeed, Schuman referenced a 2019 decision by the Supreme Court, United States v. Haymond, which struck down a five-year mandatory minimum sentence for sex offenders who violated their supervised release by committing a new sex crime. In that case, the Supreme Court concluded that the minimum sentence was unconstitutional because it “more closely resemble[d] the punishment of new criminal offenses, but without granting a defendant the rights, including the jury right, that attend a new criminal prosecution.”

Schuman said one area where revocation of community supervision is often used as an alternative to prosecution is in immigration enforcement. He explained that just like U.S. citizen criminal defendants, non-citizen defendants can also be sentenced to a term of supervised release to follow imprisonment. Yet under U.S. immigration law, these defendants are also very likely to be deported from the United States after they are released from prison. The reason for sentencing them to supervised release, according to the courts, is that if they attempt to return the United States, they can be punished for violating their supervised release.

“My analysis of the U.S. Sentencing Commission’s database revealed that revocations of illegal reentry accounts for up to one-third of all revocations along the U.S.-Mexico border and one-third of revocations for criminal violations nationally, making it among the most commonly punished criminal violations of supervised release. This suggests that supervised release is being used not only as a program of surveillance, but also as a tool of immigration enforcement.”

Schuman said the original purpose of the supervised release system was to help individuals reintegrate into society as constructive individuals, but his findings suggest that the system is instead often used as a tool for punishing criminal conduct. He concluded, “I propose that the Sentencing Commission stop recommending consecutive sentences for criminal violations, and that the Department of Justice should instruct federal prosecutors not to use revocation as an alternative to criminal prosecution except to prevent an imminent public safety threat.”

JOURNAL

Virginia Law Review

A unique machine-learning model predicts homelessness among US soldiers before their transition to civilian life

A study by a Mass General-led team could lead to more targeted strategies to prevent homelessness among military personnel

Peer-Reviewed Publication

MASSACHUSETTS GENERAL HOSPITAL

BOSTON –Researchers led by Massachusetts General Hospital (MGH) and Harvard Medical School (HMS) have found that lifetime depression, trauma of having a loved one murdered, and post-traumatic stress disorder (PTSD) are the three greatest predictors of homelessness among U.S. Army soldiers after transitioning to civilian life. Their study, published in American Journal of Preventive Medicine, used an innovative machine-learning approach to accurately predict which military personnel are at greatest risk and should therefore be targeted with specific interventions to mitigate their chances of becoming homeless.

“We’ve long been limited in our ability to predict and prevent homelessness because most approaches have been focused on helping people after they’ve become homeless, rather than taking action before it ever occurs,” says lead author Katherine Koh, MD, an investigator at MGH and for the Boston Health Care for the Homeless Program. “Our prediction model is highly actionable and we’re now designing an intervention that links the most vulnerable soldiers to support services before their active duty ends, then follows them over time.”

Currently, there are an estimated 40,000 homeless veterans in the U.S., comprising eight percent of the homeless population. In 2009, the Obama administration announced a national initiative to end veteran homelessness within five years, committing significant federal resources to the effort. While homelessness has decreased about 50 percent since then, veterans remain disproportionately represented in the homeless population, and in 2020 the number of homeless veterans increased for the first time in years.

As part of their study, MGH and other academic partners drew on data from nearly 17,000 soldiers between 2011 and 2014 as part of the Army’s STARRS-LS study, which asked questions about housing history, adverse childhood experiences, traumatic events or stressors in their lives, and physical and mental health problems. Using machine-learning versus traditional statistical methodology, researchers coded the responses to establish a model to predict who might be at greatest risk of homelessness. Of the approximately 2,000 predictor variables the model considered, self-reported lifetime histories of depression, trauma of having a loved one murdered, and post-traumatic stress disorder were found to be the strongest predictors.

“For the first time we’re applying to homelessness a ‘personalized medicine approach’ that leverages differences in an individual’s biology, lifestyle and environment to determine who is at greatest risk with a higher degree of precision than ever before,” notes Ronald Kessler, PhD, a nationally recognized sociologist and senior author of the study. Plans call for giving soldiers nearing the end of their active duty questionnaires, he adds, that would help the U.S. Department of Veterans Affairs to identify and proactively target at-risk soldiers with case management intervention.

“The presence of veterans among the homeless population in this country is still regarded by many as a matter of public shame, and for decades wasn’t given the attention it deserves,” says Koh. “Our collaborative work is directly addressing that problem, and we believe utilizing prediction models such as the one we’ve developed could play a role in preventing homelessness not only among veterans, but also other high-risk populations.”

Koh is an instructor in the Department of Psychiatry at MGH and Harvard Medical School. Kessler is professor of Health Care Policy at Harvard Medical School. Co-authors include Murray Stein, MD, MPH, professor of Psychiatry and Public Health and vice-chair for Clinical Research in Psychiatry at University of California San Diego, and Robert Ursano, MD, professor of Psychiatry and Neuroscience at Uniformed Services University of the Health Sciences.

The study was funded by HHS, NIH, National Institute of Mental Health (NIH/NIMH), and the Department of Defense.

About the Massachusetts General Hospital

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The Mass General Research Institute conducts the largest hospital-based research program in the nation, with annual research operations of more than $1 billion and comprises more than 9,500 researchers working across more than 30 institutes, centers and departments. In August 2021, Mass General was named #5 in the U.S. News & World Report list of "America’s Best Hospitals." MGH is a founding member of the Mass General Brigham healthcare system.

DOI

10.1016/j.amepre.2021.12.028

ARTICLE TITLE

Predicting Homelessness Among U.S. Army Soldiers No Longer on Active Duty

Why is the 100-year-old BCG vaccine so broadly protective in newborns?

Study finds changes in metabolite and lipid profiles, providing clues for designing future vaccines for newborns

Peer-Reviewed Publication

BOSTON CHILDREN'S HOSPITAL

The century-old Bacille Calmette-Guérin (BCG) vaccine against tuberculosis is one of the world’s oldest and most widely used vaccines, used to immunize 100 million newborns every year. Given in countries with endemic TB, it has surprisingly been found to protect newborns and young infants against multiple bacterial and viral infections unrelated to TB. There’s even some evidence that it can reduce severity of COVID-19.

What’s special about BCG vaccine? How does it protect infants so broadly? It turns out little is known. To understand its mechanism of action, researchers at the Precision Vaccines Program at Boston Children’s Hospital partnered with the Expanded Program on Immunization Consortium (EPIC), an international team studying early life immunization, to collect and comprehensively profile blood samples from newborns immunized with BCG, using a powerful “big data” approach.

Their study, published online May 3 in Cell Reports, found that the BCG vaccine induces specific changes in metabolites and lipids that correlate with innate immune system responses. The findings provide clues toward making other vaccines more effective in vulnerable populations with distinct immune systems, such as newborns.

Small babies, big data

First author Joann Diray Arce, PhD, and her colleagues began with blood samples from low-birthweight newborns in Guinea Bissau who were enrolled in a randomized clinical trial to receive BCG either at birth or after a delay of six weeks. Both groups had small blood samples taken at four weeks (after BCG was given to the first group, and before it was given to the second group).

Using metabolomics and lipidomics, the team comprehensively profiled the impact of BCG immunization on the newborns’ blood plasma. They found that BCG vaccines given at birth changed metabolite and lipid profiles in newborns’ blood plasma in a pattern distinct from those in the delayed-vaccine group. The changes correlated with changes in cytokine production, a key feature of innate immunity.

The researchers had parallel findings when they tested BCG in cord blood samples from a cohort of Boston newborns and samples from a separate NIH/NIAID-funded Human Immunology Project Consortium study of newborns in The Gambia and Papua New Guinea.

“We now have some lipid and metabolic biomarkers of vaccine protection that we can test and manipulate in mouse models,” says Arce. “We studied three different BCG formulations and showed that they converge on similar pathways of interest. Reshaping of the metabolome by BCG may contribute to the molecular mechanisms of a newborn’s immune response.”

“A growing number of studies show that BCG vaccine protects against unrelated infections,” says Ofer Levy, MD, PhD, director of the Precision Vaccines Program and the study’s senior investigator. “It’s critical that we learn from BCG to better understand how to protect newborns. BCG is an ‘old school’ vaccine — it’s made from a live, weakened germ — but live vaccines like BCG seem to activate the immune system in a very different way in early life, providing broad protection against a range of bacterial and viral infections. There’s much work ahead to better understand that and use that information to build better vaccines for infants.”

The study was supported by the NIAID (U19AI118608, U01 AI124284), the Precision Vaccines Program at Boston Children’s Hospital, and the Mueller Health Foundation. Levy is a named inventor on several Boston Children's Hospital patents relating to human microphysiologic assay systems and vaccine adjuvants. Coauthors Scott McCulloch and Greg Michelotti are employees of Metabolon Inc. The other authors declare no competing financial interests.

About Boston Children’s Hospital

Boston Children’s Hospital is ranked the #1 children’s hospital in the nation by U.S. News & World Report and is the primary pediatric teaching affiliate of Harvard Medical School. Home to the world’s largest research enterprise based at a pediatric medical center, its discoveries have benefited both children and adults since 1869. Today, 3,000 researchers and scientific staff, including 10 members of the National Academy of Sciences, 25 members of the National Academy of Medicine and 10 Howard Hughes Medical Investigators comprise Boston Children’s research community. Founded as a 20-bed hospital for children, Boston Children’s is now a 415-bed comprehensive center for pediatric and adolescent health care. For more, visit our Answers blog and follow us on social media @BostonChildrens, @BCH_Innovation, Facebook and YouTube.

The Precision Vaccines Program fosters collaboration among academia, government and industry to develop next generation vaccines to protect vulnerable populations. Follow PVP on social media: @PrecVaccines.

- ### -

JOURNAL

Cell Reports

DOI

10.1016/j.celrep.2022.110772

COI STATEMENT

Ofer Levy is a named inventor on several Boston Children's Hospital patents relating to human microphysiologic assay systems and vaccine adjuvants. Coauthors Scott McCulloch and Greg Michelotti are employees of Metabolon Inc. The other authors declare no competing financial interests.

Outcomes of menthol cigarette ban among youth in England

JAMA Network Open

Peer-Reviewed Publication

JAMA NETWORK

About The Study: This survey study of more than 7,000 smokers ages 16 to 19 found that the menthol cigarette ban in England was associated with a substantial decrease in the proportion who smoke menthol cigarettes, while the rate remained stable among youth in Canada and the United States.

Authors: Katherine A. East, Ph.D., of King’s College London, is the corresponding author.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamanetworkopen.2022.10029)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

# # #

Embed this link to provide your readers free access to the full-text article This link will be live at the embargo time http://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2022.10029?utm_source=For_The_Media&utm_medium=referral&utm_campaign=ftm_links&utm_term=050322

About JAMA Network Open: JAMA Network Open is the new online-only open access general medical journal from the JAMA Network. On weekdays, the journal publishes peer-reviewed clinical research and commentary in more than 40 medical and health subject areas. Every article is free online from the day of publication.

JOURNAL

JAMA Network Open

LA REVUE GAUCHE - Left Comment

Wednesday, May 04, 2022

Boosts access reliability in wireless communications

JOURNAL

DOI

ARTICLE TITLE

Target active and passive eavesdropping

for improving communications security

JOURNAL

DOI

ARTICLE TITLE

Timing, among other factors, improves aging in next-generation wireless communications

JOURNAL

DOI

ARTICLE TITLE

JOURNAL

DOI

ARTICLE TITLE

ARTICLE PUBLICATION D

A GLOBAL SOLUTION COMMENCES OVER COFFEE

BRINGING CALIFORNIA CODE TO JAPANESE DATA

SHARING KNOWLEDGE WITHOUT SHARING YOUR DATA

JOURNAL

DOI

ARTICLE TITLE

JOURNAL

ARTICLE TITLE

JOURNAL

ARTICLE TITLE

JOURNAL

DOI

ARTICLE TITLE

JOURNAL

DOI

COI STATEMENT

JOURNAL

About Me