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1. Upper Mid-Band Spectrum for 6G: Vision, Opportunity and Challenges

Author

Bazzi, Ahmad, Bomfin, Roberto, Mezzavilla, Marco, Rangan, Sundeep, Rappaport, Theodore, and Chafii, Marwa

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Driven by the pursuit of gigabit-per-second data speeds for future 6G mobile networks, in addition to the support of sensing and artificial intelligence applications, the industry is expanding beyond crowded sub-6 GHz bands with innovative new spectrum allocations. In this paper, we chart a compelling vision for 6G within the frequency range 3 (FR3) spectrum, i.e. $7.125$-$24.25$ $\GHz$, by delving into its key enablers and addressing the multifaceted challenges that lie ahead for these new frequency bands. Here we highlight the physical properties of this \textcolor{black}{never-before} used spectrum by reviewing recent channel measurements for outdoor and indoor environments, including path loss, delay and angular spreads, and material penetration loss, all which offer insights that underpin future 5G/6G wireless communication designs. Building on the fundamental knowledge of the channel properties, we explore FR3 spectrum agility strategies that balance coverage and capacity (e.g. data rate) tradeoffs, while also examining coexistence with incumbent systems, such as satellites, radio astronomy, and earth exploration. Moreover, we discuss the potential of massive multiple-input multiple-output, compact and digital architectures, and evaluate the potential of multiband sensing for FR3 integrated sensing and communications. Finally, we outline 6G standardization features that are likely to emerge from 3GPP radio frame innovations and open radio access network developments.

Published
2025

2. Near-Field Measurement System for the Upper Mid-Band

Author

Rasteh, Ali, Hari, Raghavendra Palayam, Guo, Hao, Mezzavilla, Marco, and Rangan, Sundeep

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The upper mid-band (or FR3, spanning 6-24 GHz) is a crucial frequency range for next-generation mobile networks, offering a favorable balance between coverage and spectrum efficiency. From another perspective, the systems operating in the near-field in both indoor environment and outdoor environments can support line-of-sight multiple input multiple output (MIMO) communications and be beneficial from the FR3 bands. In this paper, a novel method is proposed to measure the near-field parameters leveraging a recently developed reflection model where the near-field paths can be described by their image points. We show that these image points can be accurately estimated via triangulation from multiple measurements with a small number of antennas in each measurement, thus affording a low-cost procedure for near-field multi-path parameter extraction. A preliminary experimental apparatus is presented comprising 2 transmit and 2 receive antennas mounted on a linear track to measure the 2x2 MIMO channel at various displacements. The system uses a recently-developed wideband radio frequency (RF) transceiver board with fast frequency switching, an FPGA for fast baseband processing, and a new parameter extraction method to recover paths and spherical characteristics from the multiple 2x2 measurements., Comment: Accepted and presented at the 58th Asilomar Conference on Signals, Systems, and Computers

Published
2024

3. An Experimental Multi-Band Channel Characterization in the Upper Mid-Band

Author

Bomfin, Roberto, Bazzi, Ahmad, Guo, Hao, Lee, Hyeongtaek, Mezzavilla, Marco, Rangan, Sundeep, Choi, Junil, and Chafii, Marwa

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

The following paper provides a multi-band channel measurement analysis on the frequency range (FR)3. This study focuses on the FR3 low frequencies 6.5 GHz and 8.75 GHz with a setup tailored to the context of integrated sensing and communication (ISAC), where the data are collected with and without the presence of a target. A method based on multiple signal classification (MUSIC) is used to refine the delays of the channel impulse response estimates. The results reveal that the channel at the lower frequency 6.5 GHz has additional distinguishable multipath components in the presence of the target, while the one associated with the higher frequency 8.75 GHz has more blockage. The set of results reported in this paper serves as a benchmark for future multi-band studies in the FR3 spectrum.

Published
2024

4. Unifying recent experiments on spin-valley locking in TMDC quantum dots

Author

Shandilya, Aakash, Kapila, Sundeep, Krishnan, Radha, Weber, Bent, and Muralidharan, Bhaskaran

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

The spin-valley or Kramers qubit promises significantly enhanced spin-valley lifetimes due to strong coupling of the electrons' spin to their momentum (valley) degrees of freedom. In transition metal dichalcogenides (TMDCs) such spin-valley locking is expected to be particularly strong owing to the significant intrinsic spin-orbit coupling strength. Very recently, a small number of experiments on TMDC quantum dots have put forth evidence for spin-valley locking for the first time at the few-electron limit. Employing quantum transport theory, here we numerically simulate their ground- and excited-state transport spectroscopy signatures in a unified theoretical framework. In doing so, we reveal the operating conditions under which spin-valley locking occurs in TMDC quantum dots, thereby weaving the connection between intrinsic material properties and the experimental data under diverse conditions. Our simulations thus provide a predictive modeling tool for TMDC quantum dots at the few-electron limit allowing us to deduce from experiments the degree of spin-valley locking based on the SOC strength, inter-valley mixing, and the spin and valley $g$-factors. Our theoretical analysis provides an important milestone towards the next challenge of experimentally confirming valley-relaxation times using single-shot projective measurements, Comment: 13 pages, 6 figures with Appendix included, comments welcome

Published
2024

5. Extraction of geometric and transport parameters from the time constant of exocytosis transients measured by nanoscale electrodes

Author

Kapila, Sundeep and Nair, Pradeep R.

Subjects
Quantitative Biology - Subcellular Processes, Quantitative Biology - Quantitative Methods
Abstract

Exocytosis is a fundamental process related to the information exchange in the nervous and endocrine system. Among the various techniques, vesicle impact electrochemical cytometry (VIEC) has emerged as an effective method to mimic the exocytosis process and measure dynamic information about content transfer using nanoscale electrodes. In this manuscript, through analytical models and large scale simulations, we develop scaling laws for the decay time constant ($\tau$) for VIEC single-exponential transients. Specifically, our results anticipate a power law dependence of $\tau$ on the geometric and the transport parameters. This model compares very well with large scale simulations exploring the parameter space relevant for VIEC and with experimental results from literature. Remarkably, such physics based compact models could allow for novel multi-feature based self consistent strategies for back extraction of geometric and transport parameters and hence could contribute towards better statistical analysis and understanding of exocytosis transients and events., Comment: 7 pages, 5 figures

Published
2024

6. Rheumatoid arthritis and subsequent fracture risk: an individual person meta-analysis to update FRAX

Author

Kanis, John A., Johansson, Helena, McCloskey, Eugene V., Liu, Enwu, Schini, Marian, Vandenput, Liesbeth, Åkesson, Kristina E., Anderson, Fred A., Azagra, Rafael, Bager, Cecilie L., Beaudart, Charlotte, Bischoff-Ferrari, Heike A., Biver, Emmanuel, Bruyère, Olivier, Cauley, Jane A., Center, Jacqueline R., Chapurlat, Roland, Christiansen, Claus, Cooper, Cyrus, Crandall, Carolyn J., Cummings, Steven R., da Silva, José A. P., Dawson-Hughes, Bess, Diez-Perez, Adolfo, Dufour, Alyssa B., Eisman, John A., Elders, Petra J. M., Ferrari, Serge, Fujita, Yuki, Fujiwara, Saeko, Glüer, Claus-Christian, Goldshtein, Inbal, Goltzman, David, Gudnason, Vilmundur, Hall, Jill, Hans, Didier, Hoff, Mari, Hollick, Rosemary J., Huisman, Martijn, Iki, Masayuki, Ish-Shalom, Sophia, Jones, Graeme, Karlsson, Magnus K., Khosla, Sundeep, Kiel, Douglas P., Koh, Woon-Puay, Koromani, Fjorda, Kotowicz, Mark A., Kröger, Heikki, Kwok, Timothy, Lamy, Olivier, Langhammer, Arnulf, Larijani, Bagher, Lippuner, Kurt, McGuigan, Fiona E. A., Mellström, Dan, Merlijn, Thomas, Nguyen, Tuan V., Nordström, Anna, Nordström, Peter, O´Neill, Terence W., Obermayer-Pietsch, Barbara, Ohlsson, Claes, Orwoll, Eric S., Pasco, Julie A., Rivadeneira, Fernando, Schott, Anne-Marie, Shiroma, Eric J., Siggeirsdottir, Kristin, Simonsick, Eleanor M., Sornay-Rendu, Elisabeth, Sund, Reijo, Swart, Karin, Szulc, Pawel, Tamaki, Junko, Torgerson, David J., van Schoor, Natasja M., van Staa, Tjeerd P., Vila, Joan, Wright, Nicole C., Yoshimura, Noriko, Zillikens, M. Carola, Zwart, Marta, Harvey, Nicholas C., Lorentzon, Mattias, and Leslie, William D.

Published
2025
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11. Comparative Optical Analysis Using Homemade Spectrometers: Transmittance and Reflectance Methods for Material Studies

Author

Deulkar, Sundeep, Gosavi, Yukta, Jagtap, Aniruddha, Wadkar, Saurav, Pisello, Anna Laura, Editorial Board Member, Bibri, Simon Elias, Editorial Board Member, Ahmed Salih, Gasim Hayder, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Piselli, Cristina, Editorial Board Member, Strauss, Eric J., Editorial Board Member, Matamanda, Abraham, Editorial Board Member, Gallo, Paola, Editorial Board Member, Marçal Dias Castanho, Rui Alexandre, Editorial Board Member, Chica Olmo, Jorge, Editorial Board Member, Bruno, Silvana, Editorial Board Member, He, Baojie, Editorial Board Member, Niglio, Olimpia, Editorial Board Member, Pivac, Tatjana, Editorial Board Member, Olanrewaju, AbdulLateef, Editorial Board Member, Pigliautile, Ilaria, Editorial Board Member, Karunathilake, Hirushie, Editorial Board Member, Fabiani, Claudia, Editorial Board Member, Vujičić, Miroslav, Editorial Board Member, Stankov, Uglješa, Editorial Board Member, Sánchez, Angeles, Editorial Board Member, Jupesta, Joni, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Shtylla, Saimir, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Buckley, Ayşe Özcan, Editorial Board Member, Mandic, Ante, Editorial Board Member, Ahmed Ibrahim, Sherif, Editorial Board Member, Teba, Tarek, Editorial Board Member, Al-Kassimi, Khaled, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Magnaye, Dina Cartagena, Editorial Board Member, Chehimi, Mohamed Mehdi, Editorial Board Member, van Hullebusch, Eric, Editorial Board Member, Chaminé, Helder, Editorial Board Member, Della Spina, Lucia, Editorial Board Member, Aelenei, Laura, Editorial Board Member, Parra-López, Eduardo, Editorial Board Member, Ašonja, Aleksandar N., Editorial Board Member, Amer, Mourad, Series Editor, K N, Subramanya, editor, Wee, Hui-Ming, editor, and Oliveira, Mario Orlando, editor

Published
2025
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12. Channel Modeling for FR3 Upper Mid-band via Generative Adversarial Networks

Author

Hu, Yaqi, Yin, Mingsheng, Mezzavilla, Marco, Guo, Hao, and Rangan, Sundeep

Subjects
Computer Science - Information Theory, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

The upper mid-band (FR3) has been recently attracting interest for new generation of mobile networks, as it provides a promising balance between spectrum availability and coverage, which are inherent limitations of the sub 6GHz and millimeter wave bands, respectively. In order to efficiently design and optimize the network, channel modeling plays a key role since FR3 systems are expected to operate at multiple frequency bands. Data-driven methods, especially generative adversarial networks (GANs), can capture the intricate relationships among data samples, and provide an appropriate tool for FR3 channel modeling. In this work, we present the architecture, link state model, and path generative network of GAN-based FR3 channel modeling. The comparison of our model greatly matches the ray-tracing simulated data.

Published
2024

17. SenNet recommendations for detecting senescent cells in different tissues

Author

Suryadevara, Vidyani, Hudgins, Adam D., Rajesh, Adarsh, Pappalardo, Alberto, Karpova, Alla, Dey, Amit K., Hertzel, Ann, Agudelo, Anthony, Rocha, Azucena, Soygur, Bikem, Schilling, Birgit, Carver, Chase M., Aguayo-Mazzucato, Cristina, Baker, Darren J., Bernlohr, David A., Jurk, Diana, Mangarova, Dilyana B., Quardokus, Ellen M., Enninga, Elizabeth Ann L., Schmidt, Elizabeth L., Chen, Feng, Duncan, Francesca E., Cambuli, Francesco, Kaur, Gagandeep, Kuchel, George A., Lee, Gung, Daldrup-Link, Heike E., Martini, Helene, Phatnani, Hemali, Al-Naggar, Iman M., Rahman, Irfan, Nie, Jia, Passos, João F., Silverstein, Jonathan C., Campisi, Judith, Wang, Julia, Iwasaki, Kanako, Barbosa, Karina, Metis, Kay, Nernekli, Kerem, Niedernhofer, Laura J., Ding, Li, Wang, Lichao, Adams, Lisa C., Ruiyang, Liu, Doolittle, Madison L., Teneche, Marcos G., Schafer, Marissa J., Xu, Ming, Hajipour, Mohammadjavad, Boroumand, Mozhgan, Basisty, Nathan, Sloan, Nicholas, Slavov, Nikolai, Kuksenko, Olena, Robson, Paul, Gomez, Paul T., Vasilikos, Periklis, Adams, Peter D., Carapeto, Priscila, Zhu, Quan, Ramasamy, Ramalakshmi, Perez-Lorenzo, Rolando, Fan, Rong, Dong, Runze, Montgomery, Ruth R., Shaikh, Sadiya, Vickovic, Sanja, Yin, Shanshan, Kang, Shoukai, Suvakov, Sonja, Khosla, Sundeep, Garovic, Vesna D., Menon, Vilas, Xu, Yanxin, Song, Yizhe, Suh, Yousin, Dou, Zhixun, and Neretti, Nicola

Published
2024
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25. Outcomes of endoscopic sub-mucosal dissection in laterally spreading colorectal polyps: A tertiary care centre experience from India

Author

Nabi, Zaheer, Chaithanya, Manchu, Inavolu, Pradev, Ramchandani, Mohan, Reddy, Palle Manohar, Sayyed, Mahiboob, Basha, Jahangeer, Pal, Partha, Sekharan, Anuradha, Goud, Rajesh, Reddy, Praveen, Jagtap, Nitin, Kotla, Rama, Kalpala, Rakesh, Darisetty, Santhosh, Lakhtakia, Sundeep, Rao, Guduru Venkat, Tandan, Manu, Gupta, Rajesh, Devarasetti, Rangarao, Rebala, Pradeep, Shetty, Mahesh, and Reddy, D. Nageshwar

Published
2024
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27. Computational modelling of complex multiphase behavior of environmentally-friendly materials for sustainable technological solutions

Author

Akshayveer, Akshayveer, Buroni, Federico C, Melnik, Roderick, Rodriguez-Tembleque, Luis, Saez, Andres, and Singh, Sundeep

Subjects
Condensed Matter - Materials Science, Mathematical Physics, Mathematics - Analysis of PDEs, Physics - Applied Physics
Abstract

This study presents a computational framework to investigate and predict the complicated multiphase properties of eco-friendly lead-free piezoelectric materials, which are crucial for sustainable technological progress. Although their electromechanical properties vary by phase, lead-free piezoelectric materials show a considerable thermo-electromechanical response. Lead-free materials such as Bi$_{0.5}$Na$_{0,5}$TiO$_{3}$ (BNT) and other BNT-type piezoelectric materials transition to rhombohedral (R3c), orthorhombic (Pnma), tetragonal (P4bm), and cubic (Cc) phases with temperature variation. These phases are determined by the symmetry and alignment of the ferroelectric domains. Multiple phases can occur simultaneously under specific thermal, electrical, and mechanical conditions, leading in complex multiphase behaviour. These materials' performance must be assessed by studying such behaviour. This study uses Landau-Ginzburg-Devonshire theory to simulate material micro-domain phase transitions. The computational model for BNT-type piezoelectric material covers temperature-induced ferroelectric domain switching and phase transitions. Therefore, the developed computational approach will assist us in better understanding the influence of these materials' complex multiphase behaviour on creating sustainable solutions with green technologies.

Published
2024

28. Piezoelectricity and flexoelectricity in biological cells: The role of cell structure and organelles

Author

Venkateshwarlu, Akepogu, Akshayveer, Singh, Sundeep, and Melnik, Roderick

Subjects
Quantitative Biology - Quantitative Methods, Physics - Biological Physics
Abstract

Living tissues experience various external forces on cells, influencing their behaviour, physiology, shape, gene expression, and destiny through interactions with their environment. Despite much research done in this area, challenges remain in our better understanding of the behaviour of the cell in response to external stimuli, including the arrangement, quantity, and shape of organelles within the cell. This study explores the electromechanical behaviour of biological cells, including organelles like microtubules, mitochondria, nuclei, and cell membranes. Two distinct cell structures have been developed to explore the cell responses to mechanical displacement, resembling actual cell shapes. The finite element method has been utilized to integrate the linear piezoelectric and non-local flexoelectric effects accurately. It is found that the longitudinal stress is absent and only the transverse stress plays a crucial role when the mechanical load is imposed on the top side of the cell through compressive displacement. The impact of flexoelectricity is elucidated by introducing a new parameter called the maximum electric potential ratio ($V_{\text{R,max}}$). It has been found that $V_{\text{R,max}}$ depends upon the orientation angle and shape of the microtubules. Further, the study reveals that the number of microtubules significantly impacts effective elastic and piezoelectric coefficients, affecting cell behaviour based on structure, microtubule orientation, and mechanical stress direction. The insight obtained from the current study can assist in advancements in medical therapies such as tissue engineering and regenerative medicine.

Published
2024

29. Spatially Consistent Air-to-Ground Channel Modeling via Generative Neural Networks

Author

Giuliani, Amedeo, Nikbakht, Rasoul, Geraci, Giovanni, Kang, Seongjoon, Lozano, Angel, and Rangan, Sundeep

Subjects
Computer Science - Information Theory, Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

This article proposes a generative neural network architecture for spatially consistent air-to-ground channel modeling. The approach considers the trajectories of uncrewed aerial vehicles along typical urban paths, capturing spatial dependencies within received signal strength (RSS) sequences from multiple cellular base stations (gNBs). Through the incorporation of conditioning data, the model accurately discriminates between gNBs and drives the correlation matrix distance between real and generated sequences to minimal values. This enables evaluating performance and mobility management metrics with spatially (and by extension temporally) consistent RSS values, rather than independent snapshots. For some tasks underpinned by these metrics, say handovers, consistency is essential., Comment: To appear in IEEE Wireless Communications Letters

Published
2024

30. Unraveling the genetic basis of heat tolerance and yield in bread wheat: QTN discovery and Its KASP-assisted validation

Author

Latief Bashir, Neeraj Budhlakoti, Anjan Kumar Pradhan, Azhar Mehmood, Mahin Haque, Sherry R. Jacob, Rakesh Bhardwaj, Kiran Gaikwad, Dwijesh Chandra Mishra, Satinder Kaur, Pradeep Kumar Bhati, G. P. Singh, and Sundeep Kumar

Subjects
Wheat, Heat stress tolerance, Yield related traits, SNPs, QTNs, ML-GWAS, Botany, QK1-989
Abstract

Abstract Background Wheat (Triticum aestivum L.), a globally significant cereal crop and staple food, faces major production challenges due to abiotic stresses such as heat stress (HS), which pose a threat to global food security. To address this, a diverse panel of 126 wheat genotypes, primarily landraces, was evaluated across twelve environments in India, comprising of three locations, two years and two growing conditions. The study aimed to identify genetic markers associated with key agronomic traits in bread wheat, including germination percentage (GERM_PCT), ground cover (GC), days to booting (DTB), days to heading (DTHD), days to flowering (DTFL), days to maturity (DTMT), plant height (PH), grain yield (GYLD), thousand grain weight (TGW), and the normalized difference vegetation index (NDVI) under both timely and late-sown conditions using 35 K SNP genotyping assays. Multi-locus GWAS (ML-GWAS) was employed to detect significant marker-trait associations, and the identified markers were further validated using Kompetitive Allele Specific PCR (KASP). Results Six ML-GWAS models were employed for this purpose, leading to the identification of 42 highly significant and consistent quantitative trait nucleotides (QTNs) under both timely and late sown conditions, controlled by 20 SNPs, explaining 3–58% of the total phenotypic variation. Among these, noteworthy QTNs were a major grain yield QTN (qtn_nbpgr_GYLD_3B) on chromosome 3B, a pleiotropic SNP AX-95018072 on chromosome 7A influencing phenology and NDVI, and robust TGW QTNs on chromosomes 2B (qtn_nbpgr_TGW_2B), 1A (qtn_nbpgr_TGW_1A), and 4B (qtn_nbpgr_TGW_4B). Furthermore, annotation revealed that candidate genes near these QTNs encoded stress-responsive proteins, such as chaperonins, glycosyl hydrolases, and signaling molecules. Additionally, three major SNPs AX-95018072 (7A), AX-94946941 (6B), and AX-95232570 (1B) were successfully validated using KASP assay. Conclusion Our study effectively uncovered novel QTNs and candidate genes linked to heat tolerance and yield-related traits in wheat through an extensive genetic approaches. These QTNs not only corresponded with previously identified QTLs and genes associated with yield traits but also highlighted several new loci, broadening the existing genetic understanding. These findings provide valuable insights into the genetic basis of heat tolerance in wheat and offer genomic resources, including validated markers that could accelerate marker-assisted breeding and the development of next-generation heat-resilient cultivars.

Published
2025
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31. Identification of quantitative trait nucleotides for grain quality in bread wheat under heat stress

Author

Latief Bashir, Neeraj Budhlakoti, Anjan Kumar Pradhan, Divya Sharma, Antil Jain, Saman Saim Rehman, Vishal Kondal, Sherry R. Jacob, Rakesh Bhardwaj, Kiran Gaikwad, Dwijesh Chandra Mishra, Abhishek Pandey, Satinder Kaur, Pradeep Kumar Bhati, Rakesh Singh, Gyanendra Pratap Singh, and Sundeep Kumar

Subjects
Heat stress tolerance, Wheat, Quality traits, QTNs, ML-GWAS, KASP validation, Medicine, Science
Abstract

Abstract Heat stress is a critical factor affecting global wheat production and productivity. In this study, out of 500 studied germplasm lines, a diverse panel of 126 wheat genotypes grown under twelve distinct environmental conditions was analyzed. Using 35 K single-nucleotide polymorphism (SNP) genotyping assays and trait data on five biochemical parameters, including grain protein content (GPC), grain amylose content (GAC), grain total soluble sugars (TSS), grain iron (Fe), and zinc (Zn) content, six multi-locus GWAS (ML-GWAS) models were employed for association analysis. This revealed 67 stable quantitative trait nucleotides (QTNs) linked to grain quality parameters, explaining phenotypic variations ranging from 3 to 44.5% under heat stress conditions. By considering the results in consensus to at least three GWAS models and three locations, the final QTNs were reduced to 16, with 12 being novel findings. Notably, two novel markers, AX-94461119 (chromosome 2A) and AX-95220192 (chromosome 7D), associated with grain Fe and Zn, respectively, were validated through Kompetitive Allele Specific Polymerase Chain Reaction (KASP) approach. Candidate genes, including the P-loop-containing nucleoside triphosphate hydrolases (NTPases), Bowman-Birk type proteinase inhibitors (BBI), and the NPSN13 protein, were identified within associated genomic regions. These genes could serve as potential targets for enhancing quality traits and heat tolerance in future wheat improvement programs.

Published
2025
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32. The influence of thermo-electromechanical coupling on the performance of lead-free BNT-type piezoelectric materials

Author

Akshayveer, Buroni, Federico C, Melnik, Roderick, Rodriguez-Tembleque, Luis, Saez, Andres, and Singh, Sundeep

Subjects
Condensed Matter - Materials Science, Mathematical Physics, Physics - Applied Physics
Abstract

In recent times, there have been notable advancements in haptic technology, particularly in screens found on mobile phones, laptops, LED screens, and control panels. However, it is essential to note that the progress in high-temperature haptic applications is still in the developmental phase. Due to its complex phase and domain structures, lead-free piezoelectric materials such as BNT-based haptic technology behave differently at high temperatures than ambient conditions. Therefore, it is essential to investigate the aspects of thermal management and thermal stability, as temperature plays a vital role in the phase and domain transition of BNT material. A two-dimensional thermo-electromechanical model has been proposed in this study to analyze the thermal stability of BNT material by analyzing the impact of temperature on effective electromechanical properties and mechanical and electric field parameters. However, the thermo-electromechanical modelling of BNT ceramics examines the macroscopic effects of the applied thermal field on mechanical and electric field parameters as phase change and microdomain dynamics are not considered in this model. This study analyzes the impact of thermo-electromechanical coupling on the performance of BNT-type piezoelectric materials compared to conventional electromechanical coupling. The results predicted a significant improvement in piezoelectric response compared to electromechanical coupling due to increased thermoelectric effect in absence of phase change and microdomain switching for temperature boundary conditions below depolarization temperature ($T_{d}$~200$^{\circ}$C for pure BNT material)., Comment: 37 pages, 13 figures

Published
2023

33. Estimation of embedding vectors in high dimensions

Author

Azar, Golara Ahmadi, Emami, Melika, Fletcher, Alyson, and Rangan, Sundeep

Subjects
Computer Science - Machine Learning, Computer Science - Information Theory, Statistics - Machine Learning
Abstract

Embeddings are a basic initial feature extraction step in many machine learning models, particularly in natural language processing. An embedding attempts to map data tokens to a low-dimensional space where similar tokens are mapped to vectors that are close to one another by some metric in the embedding space. A basic question is how well can such embedding be learned? To study this problem, we consider a simple probability model for discrete data where there is some "true" but unknown embedding where the correlation of random variables is related to the similarity of the embeddings. Under this model, it is shown that the embeddings can be learned by a variant of low-rank approximate message passing (AMP) method. The AMP approach enables precise predictions of the accuracy of the estimation in certain high-dimensional limits. In particular, the methodology provides insight on the relations of key parameters such as the number of samples per value, the frequency of the terms, and the strength of the embedding correlation on the probability distribution. Our theoretical findings are validated by simulations on both synthetic data and real text data., Comment: 12 pages, 7 figures

Published
2023

34. 5G Edge Vision: Wearable Assistive Technology for People with Blindness and Low Vision

Author

Azzino, Tommy, Mezzavilla, Marco, Rangan, Sundeep, Wang, Yao, and Rizzo, John-Ross

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

In an increasingly visual world, people with blindness and low vision (pBLV) face substantial challenges in navigating their surroundings and interpreting visual information. From our previous work, VIS4ION is a smart wearable that helps pBLV in their day-to-day challenges. It enables multiple artificial intelligence (AI)-based microservices such as visual scene processing, navigation, and vision-language inference. These microservices require powerful computational resources and, in some cases, stringent inference times, hence the need to offload computation to edge servers. This paper introduces a novel video streaming platform that improves the capabilities of VIS4ION by providing real-time support of the microservices at the network edge. When video is offloaded wirelessly to the edge, the time-varying nature of the wireless network requires the use of adaptation strategies for a seamless video service. We demonstrate the performance of an adaptive real-time video streaming platform through experimentation with an open-source 5G deployment based on open air interface (OAI). The experiments demonstrate the ability to provide the microservices robustly in time-varying network loads., Comment: 6 pages, 4 figures, 2 tables, conference

Published
2023

35. Terrestrial-Satellite Spectrum Sharing in the Upper Mid-Band with Interference Nulling

Author

Kang, Seongjoon, Geraci, Giovanni, Mezzavilla, Marco, and Rangan, Sundeep

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The growing demand for broader bandwidth in cellular networks has turned the upper mid-band (7-24 GHz) into a focal point for expansion. However, the integration of terrestrial cellular and incumbent satellite services, particularly in the 12 GHz band, poses significant interference challenges. This paper investigates the interference dynamics in terrestrial-satellite coexistence scenarios and introduces a novel beamforming approach that leverages available ephemeris data for dynamic interference mitigation. By establishing spatial radiation nulls directed towards visible satellites, our technique ensures the protection of satellite uplink communications without markedly compromising terrestrial downlink quality. Through a practical case study, we demonstrate that our approach maintains the satellite uplink signal-to-noise ratio (SNR) degradation under 0.1 dB and incurs only a negligible SNR penalty for the terrestrial downlink. Our findings offer a promising pathway for efficient spectrum sharing in the upper mid-band, fostering a concurrent enhancement in both terrestrial and satellite network capacity.

Published
2023

36. Design Theory for Societal Digital Transformation: The Case of Digital Global Health

Author

Braa, Jorn, Sahay, Sundeep, and Monteiro, Eric

Subjects
Computer Science - Computers and Society
Abstract

With societal challenges, including but not limited to human development, equity, social justice, and climate change, societal-level digital transformation (SDT) is of imminent relevance and theoretical interest. While building on local-level efforts, societal-level transformation is a nonlinear extension of the local level. Unfortunately, academic discourse on digital transformation has largely left SDT unaccounted for. Drawing on more than 25 years of intensive, interventionist research engagement with the digital transformation of public healthcare information management and delivery in more than 80 countries in the Global South, we contribute to theorizing SDT in the form of a design theory consisting of six interconnected design principles. These design principles articulate the interplay and tensions of accommodating over time increased diversity and flexibility in digital solutions, while simultaneously connecting local, national, and regional/ global efforts.

Published
2023

37. A Multi-Modal Foundation Model to Assist People with Blindness and Low Vision in Environmental Interaction

Author

Hao, Yu, Yang, Fan, Huang, Hao, Yuan, Shuaihang, Rangan, Sundeep, Rizzo, John-Ross, Wang, Yao, and Fang, Yi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

People with blindness and low vision (pBLV) encounter substantial challenges when it comes to comprehensive scene recognition and precise object identification in unfamiliar environments. Additionally, due to the vision loss, pBLV have difficulty in accessing and identifying potential tripping hazards on their own. In this paper, we present a pioneering approach that leverages a large vision-language model to enhance visual perception for pBLV, offering detailed and comprehensive descriptions of the surrounding environments and providing warnings about the potential risks. Our method begins by leveraging a large image tagging model (i.e., Recognize Anything (RAM)) to identify all common objects present in the captured images. The recognition results and user query are then integrated into a prompt, tailored specifically for pBLV using prompt engineering. By combining the prompt and input image, a large vision-language model (i.e., InstructBLIP) generates detailed and comprehensive descriptions of the environment and identifies potential risks in the environment by analyzing the environmental objects and scenes, relevant to the prompt. We evaluate our approach through experiments conducted on both indoor and outdoor datasets. Our results demonstrate that our method is able to recognize objects accurately and provide insightful descriptions and analysis of the environment for pBLV.

Published
2023

38. Spectral vs Energy Efficiency in 6G: Impact of the Receiver Front-End

Author

Lozano, Angel and Rangan, Sundeep

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

This article puts the spotlight on the receiver front-end (RFE), an integral part of any wireless device that information theory typically idealizes into a mere addition of noise. While this idealization was sound in the past, as operating frequencies, bandwidths, and antenna counts rise, a soaring amount of power is required for the RFE to behave accordingly. Containing this surge in power expenditure exposes a harsher behavior on the part of the RFE (more noise, nonlinearities, and coarse quantization), setting up a tradeoff between the spectral efficiency under such nonidealities and the efficiency in the use of energy by the RFE. With the urge for radically better power consumptions and energy efficiencies in 6G, this emerges as an issue on which information theory can cast light at a fundamental level. More broadly, this article advocates the interest of having information theory embrace the device power consumption in its analyses. In turn, this calls for new models and abstractions such as the ones herein put together for the RFE, and for a more holistic perspective., Comment: 12 pages, 10 figures, 2 tables

Published
2023

39. Facility HIV Self-Testing in Outpatient Departments: An Assessment of Characteristics and Concerns of Outpatients Who Opt Out of Testing in Malawi

Author

Shaba, Frackson, Balakasi, Kelvin T, Offorjebe, Ogechukwu A, Nyirenda, Mike, Wong, Vincent J, Gupta, Sundeep K, Hoffman, Risa M, and Dovel, Kathryn

Subjects
Biomedical and Clinical Sciences, Public Health, Health Sciences, Clinical Sciences, Infectious Diseases, HIV/AIDS, Prevention, Behavioral and Social Science, Sexually Transmitted Infections, Clinical Research, Clinical Trials and Supportive Activities, Infection, Adult, Humans, Male, HIV Infections, HIV, Outpatients, Self-Testing, Malawi, HIV Testing, Mass Screening, sub-Saharan Africa, HIV self-testing, barriers to care, outpatient department, Public Health and Health Services, Virology, Clinical sciences, Epidemiology, Public health
Abstract

BackgroundFacility HIV self-testing (HIVST) in outpatient departments can dramatically increase testing among adult outpatients. However, it is still unclear why populations opt out of facility HIVST and reasons for opt outing. Using data from a parent facility HIVST trial, we sought to understand individual characteristics associated with opting out of facility HIVST and reported reasons for not testing.MethodsExit surveys were conducted with outpatients aged ≥15 years at 5 facilities in Central and Southern Malawi randomized to the facility HIVST arm of the parent trial. Outpatients were eligible for our substudy if they were offered HIVST and eligible for HIV testing (ie, never previously tested HIV positive and tested ≥12 months ago or never tested). Summary statistics and multivariate regression models were used.ResultsSeven hundred seventy-one outpatients were included in the substudy. Two hundred sixty-three (34%) opted out of HIVST. Urban residency (adjusted risk ratios [aRR] 3.48; 95% CI: 1.56 to 7.76) and self-reported poor health (aRR 1.86; 95% CI: 1.27 to 2.72) were associated with an increased risk of opting out. Male participants had a 69% higher risk of opting out (aRR 1.69; 95% CI: 1.14 to 2.51), with risk being 38% lower among working male participants. Primary reasons for not testing were feeling unprepared to test (49·4%) and perceived low risk of HIV infection (30·4%)-only 2.6% believed that HIVST instructions were unclear, and 1.7% were concerned about privacy.ConclusionWorking, risky sexual behavior, rural residence, and good self-rated health were positively associated with opting out of HIVST among outpatients. Strategies to address internalized barriers, such as preparedness to test and perceived need to test, should be incorporated into facility HIVST interventions.

Published
2024

40. Calorie restriction reduces biomarkers of cellular senescence in humans.

Author

Aversa, Zaira, White, Thomas, Heeren, Amanda, Hulshizer, Cassondra, Saul, Dominik, Zhang, Xu, Redman, Leanne, Martin, Corby, Racette, Susan, Huffman, Kim, Bhapkar, Manjushri, Khosla, Sundeep, Das, Sai, Fielding, Roger, Atkinson, Elizabeth, LeBrasseur, Nathan, and Molina, Anthony

Subjects
CALERIE™, aging, biomarkers, caloric restriction, inflammation, metabolism, senescence-associated secretory phenotype, Middle Aged, Humans, Caloric Restriction, Aging, Cellular Senescence, Energy Intake, Biomarkers
Abstract

Calorie restriction (CR) with adequate nutrient intake is a potential geroprotective intervention. To advance this concept in humans, we tested the hypothesis that moderate CR in healthy young-to-middle-aged individuals would reduce circulating biomarkers of cellular senescence, a fundamental mechanism of aging and aging-related conditions. Using plasma specimens from the Comprehensive Assessment of Long-term Effects of Reducing Intake of Energy (CALERIE™) phase 2 study, we found that CR significantly reduced the concentrations of several senescence biomarkers at 12 and 24 months compared to an ad libitum diet. Using machine learning, changes in biomarker concentrations emerged as important predictors of the change in HOMA-IR and insulin sensitivity index at 12 and 24 months, and the change in resting metabolic rate residual at 12 months. Finally, using adipose tissue RNA-sequencing data from a subset of participants, we observed a significant reduction in a senescence-focused gene set in response to CR at both 12 and 24 months compared to baseline. Our results advance the understanding of the effects of CR in humans and further support a link between cellular senescence and metabolic health.

Published
2024

44. Effects of intermittent senolytic therapy on bone metabolism in postmenopausal women: a phase 2 randomized controlled trial

Author

Farr, Joshua N., Atkinson, Elizabeth J., Achenbach, Sara J., Volkman, Tammie L., Tweed, Amanda J., Vos, Stephanie J., Ruan, Ming, Sfeir, Jad, Drake, Matthew T., Saul, Dominik, Doolittle, Madison L., Bancos, Irina, Yu, Kai, Tchkonia, Tamara, LeBrasseur, Nathan K., Kirkland, James L., Monroe, David G., and Khosla, Sundeep

Published
2024
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