Hugging Face's logo

Datasets:
nram97
/
wireless_taxonomy

Languages:
English
Tags:
wireless
taxonomy
communication-systems
datasets
metadata
benchmarking
Libraries:
Datasets
License:
Dataset card Data Studio Files
xet
Community
Dataset Preview
The full dataset viewer is not available (click to read why). Only showing a preview of the rows.
The dataset generation failed because of a cast error
Error code:   DatasetGenerationCastError
Exception:    DatasetGenerationCastError
Message:      An error occurred while generating the dataset

All the data files must have the same columns, but at some point there are 7 new columns ({'Availaibility (open?)', 'Number of Papers using Dataset', 'dataset name', 'modality(ies)', 'Availability Annotations', 'OSI layer at which dataset is measured', 'Collection environment'}) and 2 missing columns ({'bibtex citation', 'DOI version of key'}).

This happened while the csv dataset builder was generating data using

hf://datasets/nram97/wireless_taxonomy/datasets/wireless_datasets.csv (at revision c0cae371d0ab2943105094e89cbd761d2f380e05)

Please either edit the data files to have matching columns, or separate them into different configurations (see docs at https://hf.co/docs/hub/datasets-manual-configuration#multiple-configurations)
Traceback:    Traceback (most recent call last):
                File "/usr/local/lib/python3.12/site-packages/datasets/builder.py", line 1831, in _prepare_split_single
                  writer.write_table(table)
                File "/usr/local/lib/python3.12/site-packages/datasets/arrow_writer.py", line 714, in write_table
                  pa_table = table_cast(pa_table, self._schema)
                             ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
                File "/usr/local/lib/python3.12/site-packages/datasets/table.py", line 2272, in table_cast
                  return cast_table_to_schema(table, schema)
                         ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
                File "/usr/local/lib/python3.12/site-packages/datasets/table.py", line 2218, in cast_table_to_schema
                  raise CastError(
              datasets.table.CastError: Couldn't cast
              dataset name: string
              bibtex citation key: string
              OSI layer at which dataset is measured: string
              modality(ies): string
              Availaibility (open?): string
              Availability Annotations: string
              Collection environment: string
              Number of Papers using Dataset: int64
              -- schema metadata --
              pandas: '{"index_columns": [{"kind": "range", "name": null, "start": 0, "' + 1416
              to
              {'bibtex citation key': Value('string'), 'DOI version of key': Value('string'), 'bibtex citation': Value('string')}
              because column names don't match
              
              During handling of the above exception, another exception occurred:
              
              Traceback (most recent call last):
                File "/src/services/worker/src/worker/job_runners/config/parquet_and_info.py", line 1455, in compute_config_parquet_and_info_response
                  parquet_operations = convert_to_parquet(builder)
                                       ^^^^^^^^^^^^^^^^^^^^^^^^^^^
                File "/src/services/worker/src/worker/job_runners/config/parquet_and_info.py", line 1054, in convert_to_parquet
                  builder.download_and_prepare(
                File "/usr/local/lib/python3.12/site-packages/datasets/builder.py", line 894, in download_and_prepare
                  self._download_and_prepare(
                File "/usr/local/lib/python3.12/site-packages/datasets/builder.py", line 970, in _download_and_prepare
                  self._prepare_split(split_generator, **prepare_split_kwargs)
                File "/usr/local/lib/python3.12/site-packages/datasets/builder.py", line 1702, in _prepare_split
                  for job_id, done, content in self._prepare_split_single(
                                               ^^^^^^^^^^^^^^^^^^^^^^^^^^^
                File "/usr/local/lib/python3.12/site-packages/datasets/builder.py", line 1833, in _prepare_split_single
                  raise DatasetGenerationCastError.from_cast_error(
              datasets.exceptions.DatasetGenerationCastError: An error occurred while generating the dataset
              
              All the data files must have the same columns, but at some point there are 7 new columns ({'Availaibility (open?)', 'Number of Papers using Dataset', 'dataset name', 'modality(ies)', 'Availability Annotations', 'OSI layer at which dataset is measured', 'Collection environment'}) and 2 missing columns ({'bibtex citation', 'DOI version of key'}).
              
              This happened while the csv dataset builder was generating data using
              
              hf://datasets/nram97/wireless_taxonomy/datasets/wireless_datasets.csv (at revision c0cae371d0ab2943105094e89cbd761d2f380e05)
              
              Please either edit the data files to have matching columns, or separate them into different configurations (see docs at https://hf.co/docs/hub/datasets-manual-configuration#multiple-configurations)

Need help to make the dataset viewer work? Make sure to review how to configure the dataset viewer, and open a discussion for direct support.

bibtex citation key
string
DOI version of key
string
bibtex citation
string
okubo2024integrated
10.1145/3651890.3672226
@inproceedings{okubo2024integrated, author = {Okubo, Ryu and Jacobs, Luke and Wang, Jinhua and Bowers, Steven and Soltanaghai, Elahe}, title = {Integrated Two-way Radar Backscatter Communication and Sensing with Low-power IoT Tags}, year = {2024}, isbn = {9798400706141}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3651890.3672226}, doi = {10.1145/3651890.3672226}, abstract = {Integrated Sensing and Communication (ISAC) represents an innovative paradigm for enhancing spectrum and hardware utilization for both sensing and communication. A specific type of ISAC, radar backscatter communication, involves low-power nodes embedding data onto radar signal reflections rather than generating new signals. However, existing radar backscatter techniques only facilitate uplink communication from the tag to the radar, neglecting downlink communication. This paper introduces BiScatter, an integrated radar backscatter communication and sensing system that enables simultaneous uplink and downlink backscatter communication, radar sensing, and backscatter localization. This is achieved through the design of chirp-slope-shift-keying modulation on top of Frequency Modulated Continuous Wave (FMCW) radars, complemented by passive differential circuitry at the backscatter tags for low-power decoding. BiScatter also presents a packet structure compatible with off-the-shelf radars that offer accurate data processing and synchronization between radar and tag. We prototype this backscatter network in both 9GHz and 24GHz, demonstrating its capability to extend across different frequency bands. Our evaluations demonstrate that BiScatter supports two-way backscatter communication with BER lower than 10-3 up to 7m range and centimeter-level tag localization accuracy on top of off-the-shelf FMCW radars. The presented approach significantly augments the versatility and efficiency of ISAC for low-power devices.}, booktitle = {Proceedings of the ACM SIGCOMM 2024 Conference}, pages = {327–339}, numpages = {13}, keywords = {backscatter communication, integrated sensing and communication, mmWave backscattering, two-way communication, radar sensing}, location = {Sydney, NSW, Australia}, series = {ACM SIGCOMM '24} }
ye2024dissecting
10.1145/3651890.3672250
@inproceedings{ye2024dissecting, author = {Ye, Wei and Hu, Xinyue and Sleder, Steven and Zhang, Anlan and Dayalan, Udhaya Kumar and Hassan, Ahmad and Fezeu, Rostand A. K. and Jajoo, Akshay and Lee, Myungjin and Ramadan, Eman and Qian, Feng and Zhang, Zhi-Li}, title = {Dissecting Carrier Aggregation in 5G Networks: Measurement, QoE Implications and Prediction}, year = {2024}, isbn = {9798400706141}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3651890.3672250}, doi = {10.1145/3651890.3672250}, abstract = {By aggregating multiple channels, Carrier Aggregation (CA) is an important technology for boosting cellular network bandwidth. Given diverse radio bands made available in 5G networks, CA plays a particularly critical role in achieving the goal of multi-Gbps throughput performance. In this paper, we carry out a timely comprehensive measurement study of CA in commercial 5G networks (as well as 4G networks). We identify the key factors that influence whether CA is deployed and when, as well as which band combinations are used. Thus, we reveal the challenges posed by CA in 5G performance analysis and prediction as well as their implications in application quality-of-experience (QoE). We argue for and develop a novel CA-aware deep learning framework, dubbed Prism5G, which explicitly accounts for the complexity introduced by CA to more effectively predict 5G network throughput performance. Through extensive evaluations, we demonstrate the superiority of Prism5G over existing throughput prediction algorithms. Prism5G improves 5G throughput prediction accuracy by over 14\% on average and a maximum of 22\%. Using two use cases as examples, we further illustrate how Prism5G can aid applications in optimizing QoE performance.}, booktitle = {Proceedings of the ACM SIGCOMM 2024 Conference}, pages = {340–357}, numpages = {18}, keywords = {carrier aggregation, 4G, 5G, network measurement, mobile network throughput prediction, deep learning}, location = {Sydney, NSW, Australia}, series = {ACM SIGCOMM '24} }
chen2024soda
10.1145/3651890.3672260
@inproceedings{chen2024soda, author = {Chen, Tianyu and Lin, Yiheng and Christianson, Nicolas and Akhtar, Zahaib and Dharmaji, Sharath and Hajiesmaili, Mohammad and Wierman, Adam and Sitaraman, Ramesh K.}, title = {SODA: An Adaptive Bitrate Controller for Consistent High-Quality Video Streaming}, year = {2024}, isbn = {9798400706141}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3651890.3672260}, doi = {10.1145/3651890.3672260}, abstract = {The primary objective of adaptive bitrate (ABR) streaming is to enhance users' quality of experience (QoE) by dynamically adjusting the video bitrate in response to changing network conditions. However, users often find frequent bitrate switching frustrating due to the resulting inconsistency in visual quality over time, especially during live streaming when buffer lengths are short. In this paper, we propose a practical smoothness optimized dynamic adaptive (SODA) controller that specifically addresses this problem while remaining deployable. SODA is backed by theoretical guarantees and has shown superior performance in empirical evaluations. Specifically, our numerical simulations show a 9.55\% to 27.8\% QoE improvement and our prototype evaluation shows a 30.4\% QoE improvement compared to the state-of-the-art baselines. In order to be widely deployable, SODA performs bitrate horizon planning in polynomial time compared to brute force approaches that suffer from exponential complexity. To demonstrate its real-world practicality, we deployed SODA on a wide range of devices within the production network of Amazon Prime Video. Production experiments show that SODA reduced bitrate switching by up to 88.8\% and increased average stream viewing duration by up to 5.91\% compared to a fine-tuned production baseline.}, booktitle = {Proceedings of the ACM SIGCOMM 2024 Conference}, pages = {613–644}, numpages = {32}, keywords = {adaptive bitrate streaming, smoothed online convex optimization}, location = {Sydney, NSW, Australia}, series = {ACM SIGCOMM '24} }
johnson2024dauth
10.1145/3651890.3672263
@inproceedings{johnson2024dauth, author = {Johnson, Matthew and Singanamalla, Sudheesh and Durand, Nick and Jang, Esther Han Boel and Sevilla, Spencer and Heimerl, Kurtis}, title = {dAuth: A Resilient Authentication Architecture for Federated Private Cellular Networks}, year = {2024}, isbn = {9798400706141}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3651890.3672263}, doi = {10.1145/3651890.3672263}, abstract = {We present dAuth, an approach to device authentication in private cellular networks which refactors the responsibilities of authentication to enable multiple small private cellular networks to federate together to provide a more reliable and resilient service than could be achieved on their own. dAuth is designed to be backwards compatible with off-the-shelf 4G and 5G cellular devices and can be incrementally deployed today. It uses cryptographic secret sharing and a division of concerns between sensitive data stored with backup networks and non-sensitive public directory data to securely scale authentication across multiple redundant nodes operating among different and untrusted organizations. Specifically, it allows a collection of pre-configured backup networks to authenticate users on behalf of their home network while the home network is unavailable. We evaluate dAuth's performance with production equipment from an active federated community network, finding that it is able to work with existing systems. We follow this with an evaluation using a simulated 5G RAN and find that it performs comparably to a standalone cloud-based 5G core at low load, and outperforms a centralized core at high load due to its innate load-sharing properties.}, booktitle = {Proceedings of the ACM SIGCOMM 2024 Conference}, pages = {373–391}, numpages = {19}, keywords = {LTE, 5G, authentication, cellular networks, secret sharing, community networks}, location = {Sydney, NSW, Australia}, series = {ACM SIGCOMM '24} }
k2024unveiling
10.1145/3651890.3672269
@inproceedings{k2024unveiling, author = {K. Fezeu, Rostand A. and Fiandrino, Claudio and Ramadan, Eman and Carpenter, Jason and de Freitas, Lilian Coelho and Bilal, Faaiq and Ye, Wei and Widmer, Joerg and Qian, Feng and Zhang, Zhi-Li}, title = {Unveiling the 5G Mid-Band Landscape: From Network to Performance and Application QoE}, year = {2024}, isbn = {9798400706141}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3651890.3672269}, doi = {10.1145/3651890.3672269}, abstract = {5G in mid-bands has become the dominant of choice in the world. We present - to the best of our knowledge - the first comprehensive and comparative cross-country measurement study of commercial mid-band 5G s in Europe and the U.S., filling a gap in the existing 5G measurement studies. We unveil the key 5G mid-band channels and configuration parameters used by various operators in these countries, and identify the major factors that impact the observed 5G performance both from the network (physical layer) perspective as well as the application perspective. We characterize and compare 5G mid-band throughput and latency performance by dissecting the 5G configurations, lower-layer parameters as well as settings. By cross-correlating 5G parameters with the application decision process, we demonstrate how 5G parameters affect application QoE metrics and suggest a simple approach for QoE enhancement. Our study sheds light on how to better configure and optimize 5G mid-band networks, and provides guidance to users and application developers on operator choices and application QoE tuning. We released the datasets and artifacts at https://github.com/SIGCOMM24-5GinMidBands/artifacts.}, booktitle = {Proceedings of the ACM SIGCOMM 2024 Conference}, pages = {358–372}, numpages = {15}, keywords = {5G, 5G mid-band, 5G mmWave, mid-band vs. mmWave, PHY layer, measurement, latency, video streaming, performance, QoE, dataset}, location = {Sydney, NSW, Australia}, series = {ACM SIGCOMM '24} }
sun2024multi
10.1145/3672196.3673394
@inproceedings{sun2024multi, author = {Sun, Yuan-Chun and Shi, Yuang and Ooi, Wei Tsang and Huang, Chun-Ying and Hsu, Cheng-Hsin}, title = {Multi-frame Bitrate Allocation of Dynamic 3D Gaussian Splatting Streaming Over Dynamic Networks}, year = {2024}, isbn = {9798400707117}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3672196.3673394}, doi = {10.1145/3672196.3673394}, abstract = {Dynamic 3D Gaussian splats have emerged as an exciting new data type for modeling interactive photo-realistic 3D scenes. This work considers the problem of bitrate allocation for streaming dynamic 3D Gaussian splats under dynamic network conditions. We model four parameters that influence the rate-distortion trade-offs for different attribute categories and propose an efficient Model-driven Gradient Ascent (MGA) algorithm to search for the optimal parameters that achieve high visual quality while keeping the bitrate below a given threshold across multiple frames. In our experiments, MGA achieves up to 5.46 dB in PSNR improvement over the baseline. We further proposed an adaptive MGA that reduces close to 3x computational time with negligible visual quality loss.}, booktitle = {Proceedings of the 2024 SIGCOMM Workshop on Emerging Multimedia Systems}, pages = {1–7}, numpages = {7}, keywords = {3D Gaussian Splatting, Adaptive streaming, Bitrate allocation, Computer graphics, System design}, location = {Sydney, NSW, Australia}, series = {EMS '24} }
asim2024impact
10.1145/3672196.3673395
@inproceedings{asim2024impact, author = {Asim, Rohail and Subramanian, Lakshmi and Zaki, Yasir}, title = {Impact of Congestion Control on Mixed Reality Applications}, year = {2024}, isbn = {9798400707117}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3672196.3673395}, doi = {10.1145/3672196.3673395}, abstract = {The rapid increase in popularity of Virtual Reality (VR) and Augmented Reality (AR) has paved the way for the development of new applications that have the potential to revolutionize the current landscape of industries such as entertainment, education, and healthcare. A core component required to enable the development of these prospective applications is the ability to stream immersive videos in high quality with ultra-low latency. As a significant percentage of VR video traffic is expected to be delivered over mobile networks, it is important to evaluate if these networks are capable of supporting immersive video streaming. Although next-generation mobile networks offer the ultra-high bandwidth capabilities required to support AR/VR applications, it is currently unclear if current Congestion Control Algorithms (CCAs) are capable of effectively utilizing these networks to meet the strict throughput and latency requirements demanded by these applications. This paper aims to evaluate the performance of existing CCAs for such AR/VR applications. We study the performance of five prominent CCAs to evaluate: (i) the performance of these CCAs in 3G, 4G, and 5G environments for streaming current VR videos; and (ii) the performance of these CCAs in simulations with the expected bandwidth requirements of future AR/VR applications.}, booktitle = {Proceedings of the 2024 SIGCOMM Workshop on Emerging Multimedia Systems}, pages = {21–26}, numpages = {6}, keywords = {Congestion Control, Measurement, Mixed Reality}, location = {Sydney, NSW, Australia}, series = {EMS '24} }
li2024eloquent
10.1145/3672198.3673797
@inproceedings{10.1145/3672198.3673797, author = {Li, Hanchen and Liu, Yuhan and Cheng, Yihua and Ray, Siddhant and Du, Kuntai and Jiang, Junchen}, title = {Eloquent: A More Robust Transmission Scheme for LLM Token Streaming}, year = {2024}, isbn = {9798400707131}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3672198.3673797}, doi = {10.1145/3672198.3673797}, abstract = {To render each generated token in real-time for users, the Large Language Model (LLM) server generates tokens one by one and streams each token (or group of a few tokens) through the network to the user right after generation, which we refer to as LLM token streaming. However, under unstable network conditions, the LLM token streaming experience could suffer greatly from stalls since one packet loss could block the rendering of later tokens even if the packets containing them arrive on time. With a measurement study, we show that current applications suffer from increased stalls under unstable networks.For this emerging token streaming problem in LLM Chatbots that differs from previous multimedia and text applications, we propose a novel transmission scheme, called Eloquent, which puts newly generated tokens as well as currently unacknowledged tokens in the next outgoing packet. This ensures that each packet contains some new tokens and, in the meantime, is independently rendered when received, avoiding the aforementioned stalls caused by missing packets. Through simulation under various networks, we show Eloquent reduces stall ratio (proportion of token rendering wait time) by 71.0\% compared to the retransmission method commonly used by real chatbot applications and by 31.6\% compared to the baseline packet duplication scheme. By tailoring Eloquent to fit the token-by-token generation of LLM, we enable the Chatbots to respond like an eloquent speaker for users to better enjoy pervasive AI.}, booktitle = {Proceedings of the 2024 SIGCOMM Workshop on Networks for AI Computing}, pages = {34–40}, numpages = {7}, keywords = {Large Language Models, Real-Time Communication, Token Streaming}, location = {Sydney, NSW, Australia}, series = {NAIC '24} }
consul2024reliable
10.1145/3672200.3673877
@inproceedings{10.1145/3672200.3673877, author = {Consul, Prakhar and Joshi, Neeraj and Budhiraja, Ishan and Biswas, Sujit and Kumar, Neeraj and Sharma, Sachin and Abraham, Ajith}, title = {A Reliable Zero-Trust Network for Task Offloading in Vehicular Systems Using an Asynchronous Federated Learning Approach in 6G}, year = {2024}, isbn = {9798400707155}, publisher = {Association for Computing Machinery}, address = {New York, NY, USA}, url = {https://doi.org/10.1145/3672200.3673877}, doi = {10.1145/3672200.3673877}, abstract = {In the emerging 6G era, vehicles are extensively connected to wireless networks through edge-accessible roadside units (RSUs). The increasing number of connected vehicles and vehicle services introduces a significant security challenge known as the "zero-trust network (ZTN)." This necessitates a shift from traditional methods of resource slicing and scheduling. This study focuses on ensuring reliable 6G vehicular services, particularly addressing the scenario of task offloading between vehicles, which involves managing communication resources. We propose a method that uses a logical model to assign an edge node score (ENS) to evaluate the security of edge nodes, thereby protecting vehicles from potential threats posed by untrusted edge access points. Vehicles select edge nodes with high ENS scores for task offloading. Also, we used a federated asynchronous reinforcement learning approach to enhance the management of offloaded tasks. Simulation results show that the proposed approach effectively organizes the resources and ensures the security of vehicle data.}, booktitle = {Proceedings of the SIGCOMM Workshop on Zero Trust Architecture for Next Generation Communications}, pages = {25–30}, numpages = {6}, keywords = {6G, Asynchronous Federated learning, Edge Node Score, Edge Vehicular Network, Resource slicing, Zero-trust Network}, location = {Sydney, NSW, Australia}, series = {ZTA-NextGen '24} }
lu2023millimeter
10.1145/3603269.3604873
@inproceedings{lu2023millimeter, title={A millimeter wave backscatter network for two-way communication and localization}, author={Lu, Haofan and Mazaheri, Mohammad and Rezvani, Reza and Abari, Omid}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={49--61}, year={2023} }
rajiullah2023carl
10.1145/3609382.3610510
@inproceedings{rajiullah2023carl, title={CARL-W: a testbed for empirical analyses of 5g and starlink performance}, author={Rajiullah, Mohammad and Caso, Giuseppe and Brunstrom, Anna and Karlsson, Jonas and Alfredsson, Stefan and Alay, Ozgu}, booktitle={Proceedings of the 3rd ACM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={1--7}, year={2023} }
broner20235g
10.1145/3609382.3610511
@inproceedings{broner20235g, title={5G-MANTRA: Multi-Access Network Testbed for Research on ATSSS}, author={Broner, Matan and Lee, Sangwoo and Jin, Liuyi and Stoleru, Radu}, booktitle={Proceedings of the 3rd ACM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={8--13}, year={2023} }
almasan2023enhancing
10.1145/3609382.3610509
@inproceedings{almasan2023enhancing, title={Enhancing 5g radio planning with graph representations and deep learning}, author={Almasan, Paul and Su{\'a}rez-Varela, Jos{\'e} and Lutu, Andra and Cabellos-Aparicio, Albert and Barlet-Ros, Pere}, booktitle={Proceedings of the 3rd ACM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={14--20}, year={2023} }
caloyannis2023software
10.1145/3609382.3610512
@inproceedings{caloyannis2023software, title={Software Defined Radio platform to evaluate processing latency of 5G NR MIMO functions}, author={Caloyannis, Karen and Vergne, Ana{\"\i}s and Martins, Philippe}, booktitle={Proceedings of the 3rd ACM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={21--27}, year={2023} }
ni2023cellfusion
10.1145/3603269.3604832
@inproceedings{ni2023cellfusion, title={Cellfusion: Multipath vehicle-to-cloud video streaming with network coding in the wild}, author={Ni, Yunzhe and Zheng, Zhilong and Lin, Xianshang and Gao, Fengyu and Zeng, Xuan and Liu, Yirui and Xu, Tao and Wang, Hua and Zhang, Zhidong and Du, Senlang and others}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={668--683}, year={2023} }
dhawaskar2023converge
10.1145/3603269.3604822
@inproceedings{dhawaskar2023converge, title={Converge: Qoe-driven multipath video conferencing over webrtc}, author={Dhawaskar Sathyanarayana, Sandesh and Lee, Kyunghan and Grunwald, Dirk and Ha, Sangtae}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={637--653}, year={2023} }
ghabashneh2023dragonfly
10.1145/3603269.3604876
@inproceedings{ghabashneh2023dragonfly, title={Dragonfly: Higher perceptual quality for continuous 360 video playback}, author={Ghabashneh, Ehab and Bothra, Chandan and Govindan, Ramesh and Ortega, Antonio and Rao, Sanjay}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={516--532}, year={2023} }
eid2023enabling
10.1145/3603269.3604814
@inproceedings{eid2023enabling,@inproceedings{eid2023enabling, title={Enabling long-range underwater backscatter via van atta acoustic networks}, author={Eid, Aline and Rademacher, Jack and Akbar, Waleed and Wang, Purui and Allam, Ahmed and Adib, Fadel}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={1--19}, year={2023} }
wu2023enabling
10.1145/3603269.3604817
@inproceedings{wu2023enabling, title={Enabling ubiquitous WiFi sensing with beamforming reports}, author={Wu, Chenhao and Huang, Xuan and Huang, Jun and Xing, Guoliang}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={20--32}, year={2023} }
lazarev2023resilient
10.1145/3603269.3604841
@inproceedings{lazarev2023resilient, title={Resilient baseband processing in virtualized rans with slingshot}, author={Lazarev, Nikita and Ji, Tao and Kalia, Anuj and Kim, Daehyeok and Marinos, Ilias and Yan, Francis Y and Delimitrou, Christina and Zhang, Zhiru and Akella, Aditya}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={654--667}, year={2023} }
wang2023towards
10.1145/3603269.3604881
@inproceedings{wang2023towards, title={Towards practical and scalable molecular networks}, author={Wang, Jiaming and {\"O}{\u{g}}{\"u}t, Sevda and Al Hassanieh, Haitham and Krishnaswamy, Bhuvana}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={62--76}, year={2023} }
chen2023underwater
10.1145/3603269.3604851
@inproceedings{chen2023underwater, title={Underwater 3D positioning on smart devices}, author={Chen, Tuochao and Chan, Justin and Gollakota, Shyamnath}, booktitle={Proceedings of the ACM SIGCOMM 2023 Conference}, pages={33--48}, year={2023} }
liu2023mobile
10.1145/3609395.3610593
@inproceedings{liu2023mobile, title={Mobile volumetric video streaming system through implicit neural representation}, author={Liu, Junhua and Wang, Yuanyuan and Wang, Yan and Wang, Yufeng and Cui, Shuguang and Wang, Fangxin}, booktitle={Proceedings of the 2023 Workshop on Emerging Multimedia Systems}, pages={1--7}, year={2023} }
yu2023rtcsr
10.1145/3609395.3610601
@inproceedings{yu2023rtcsr, title={RTCSR: Zero-latency Aware Super-resolution for WebRTC Mobile Video Streaming}, author={Yu, Qian and Li, Qing and He, Rui and Shi, Wanxin and Jiang, Yong}, booktitle={Proceedings of the 2023 Workshop on Emerging Multimedia Systems}, pages={54--59}, year={2023} }
guo2023power
10.1145/3609395.3610598
@inproceedings{guo2023power, title={The Power of Asynchronous SLAM in Multi-User AR over Cellular Networks: A Measurement Study}, author={Guo, Yuting and Wang, Sizhe and Ghoshal, Moinak and Hu, Y Charlie and Koutsonikolas, Dimitrios}, booktitle={Proceedings of the 2023 Workshop on Emerging Multimedia Systems}, pages={34--40}, year={2023} }
pasandi2023improving
10.1145/3609389.3610570
@inproceedings{barahouei2023improving, title={Improving ble fingerprint radio maps: A method based on fuzzy clustering and weighted interpolation}, author={Barahouei Pasandi, Hannaneh and Moradbeikie, Azin and Barros, Daniel and Verde, David and Paiva, Sara and Lopes, Sergio Ivan}, booktitle={Proceedings of the 1st Workshop on Enhanced Network Techniques and Technologies for the Industrial IoT to Cloud Continuum}, pages={41--47}, year={2023} }
despres2023detagtive
10.1145/3609396.3610544
@inproceedings{despres2023detagtive, title={DeTagTive: Linking MACs to protect against malicious BLE trackers}, author={Despres, Tess and Davis, Noelle and Dutta, Prabal and Wagner, David}, booktitle={Proceedings of the Second Workshop on Situating Network Infrastructure with People, Practices, and Beyond}, pages={1--7}, year={2023} }
wei2022knew
10.1145/3522783.3529526
@inproceedings{wei2022knew, title={KNEW: Key generation using neural networks from wireless channels}, author={Wei, Xue and Saha, Dola}, booktitle={Proceedings of the 2022 ACM workshop on wireless security and machine learning}, pages={45--50}, year={2022} }
chen2022underwater
10.1145/3544216.3544258
@inproceedings{chen2022underwater,@inproceedings{chen2022underwater, title={Underwater messaging using mobile devices}, author={Chen, Tuochao and Chan, Justin and Gollakota, Shyamnath}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={545--559}, year={2022} }
hassan2022vivisecting
10.1145/3544216.3544217
title={Underwater messaging using mobile devices},@inproceedings{hassan2022vivisecting, title={Vivisecting mobility management in 5G cellular networks}, author={Hassan, Ahmad and Narayanan, Arvind and Zhang, Anlan and Ye, Wei and Zhu, Ruiyang and Jin, Shuowei and Carpenter, Jason and Mao, Z Morley and Qian, Feng and Zhang, Zhi-Li}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={86--100}, year={2022} }
yuan2022understanding
10.1145/3544216.3544219
author={Chen, Tuochao and Chan, Justin and Gollakota, Shyamnath},@inproceedings{yuan2022understanding, title={Understanding 5G performance for real-world services: A content provider's perspective}, author={Yuan, Xinjie and Wu, Mingzhou and Wang, Zhi and Zhu, Yifei and Ma, Ming and Guo, Junjian and Zhang, Zhi-Li and Zhu, Wenwu}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={101--113}, year={2022} }
yang2022mobile
10.1145/3544216.3544237
@inproceedings{yang2022mobile, title={Mobile access bandwidth in practice: Measurement, analysis, and implications}, author={Yang, Xinlei and Lin, Hao and Li, Zhenhua and Qian, Feng and Li, Xingyao and He, Zhiming and Wu, Xudong and Wang, Xianlong and Liu, Yunhao and Liao, Zhi and others}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={114--128}, year={2022} }
zhao2022seed
10.1145/3544216.3544260
@inproceedings{zhao2022seed, title={Seed: a sim-based solution to 5g failures}, author={Zhao, Jinghao and Tan, Zhaowei and Xu, Yifei and Zhang, Zhehui and Lu, Songwu}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={129--142}, year={2022} }
meng2022achieving
10.1145/3544216.3544225
@inproceedings{meng2022achieving, title={Achieving consistent low latency for wireless real-time communications with the shortest control loop}, author={Meng, Zili and Guo, Yaning and Sun, Chen and Wang, Bo and Sherry, Justine and Liu, Hongqiang Harry and Xu, Mingwei}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={193--206}, year={2022} }
uyeda2022sdn
10.1145/3544216.3544231
@inproceedings{uyeda2022sdn, title={SDN in the stratosphere: Loon's aerospace mesh network}, author={Uyeda, Frank and Alvidrez, Marc and Kline, Erik and Petrini, Bryce and Barritt, Brian and Mandle, David and Alexander, Aswin Chandy}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={264--280}, year={2022} }
li2022case
10.1145/3544216.3544231
@inproceedings{li2022case, title={A case for stateless mobile core network functions in space}, author={Li, Yuanjie and Li, Hewu and Liu, Wei and Liu, Lixin and Chen, Yimei and Wu, Jianping and Wu, Qian and Liu, Jun and Lai, Zeqi}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={298--313}, year={2022} }
gong2022empowering
10.1145/3544216.3544270
@inproceedings{gong2022empowering, title={Empowering smart buildings with self-sensing concrete for structural health monitoring}, author={Gong, Zheng and Han, Lubing and An, Zhenlin and Yang, Lei and Ding, Siqi and Xiang, Yu}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={560--575}, year={2022} }
oppermann2022higher
10.1145/3544216.3544261
@inproceedings{oppermann2022higher, title={Higher-order modulation for acoustic backscatter communication in metals}, author={Oppermann, Peter and Renner, Christian}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={576--587}, year={2022} }
shenoy2022rf
10.1145/3544216.3544256
@inproceedings{shenoy2022rf, title={Rf-protect: privacy against device-free human tracking}, author={Shenoy, Jayanth and Liu, Zikun and Tao, Bill and Kabelac, Zachary and Vasisht, Deepak}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={588--600}, year={2022} }
gupta2022cyclops
10.1145/3544216.3544255
@inproceedings{gupta2022cyclops, title={Cyclops: An fso-based wireless link for vr headsets}, author={Gupta, Himanshu and Curran, Max and Longtin, Jon and Rockwell, Torin and Zheng, Kai and Dasari, Mallesham}, booktitle={Proceedings of the ACM SIGCOMM 2022 Conference}, pages={601--614}, year={2022} }
ghoshal2022depth
10.1145/3538394.3546042
@inproceedings{ghoshal2022depth, title={An in-depth study of uplink performance of 5G mmWave networks}, author={Ghoshal, Moinak and Kong, Z Jonny and Xu, Qiang and Lu, Zixiao and Aggarwal, Shivang and Khan, Imran and Li, Yuanjie and Hu, Y Charlie and Koutsonikolas, Dimitrios}, booktitle={Proceedings of the ACM SIGCOMM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={29--35}, year={2022} }
kousias2022implications
10.1145/3538394.3546041
@inproceedings{kousias2022implications, title={Implications of handover events in commercial 5G non-standalone deployments in Rome}, author={Kousias, Konstantinos and Rajiullah, Mohammad and Caso, Giuseppe and Alay, Ozgu and Brunstrom, Anna and De Nardis, Luca and Neri, Marco and Ali, Usman and Di Benedetto, Maria-Gabriella}, booktitle={Proceedings of the ACM SIGCOMM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={22--27}, year={2022} }
haile2022performance
10.1145/3538394.3546040
@inproceedings{haile2022performance, title={Performance of QUIC congestion control algorithms in 5G networks}, author={Haile, Habtegebreil and Grinnemo, Karl-Johan and Ferlin, Simone and Hurtig, Per and Brunstrom, Anna}, booktitle={Proceedings of the ACM SIGCOMM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={15--21}, year={2022} }
rao2022prediction
10.1145/3538394.3546039
@inproceedings{rao2022prediction, title={Prediction and exposure of delays from a base station perspective in 5G and beyond networks}, author={Rao, Akhila and T{\"a}rneberg, William and Fitzgerald, Emma and Corneo, Lorenzo and Zavodovski, Aleksandr and Rai, Omkar and Johansson, Sixten and Berggren, Viktor and Riaz, Hassam and Kilinc, Caner and others}, booktitle={Proceedings of the ACM SIGCOMM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={8--14}, year={2022} }
wei20225gperf
10.1145/3538394.3546044
@inproceedings{wei20225gperf, title={5GPerf: profiling open source 5G RAN components under different architectural deployments}, author={Wei, Cuidi and Kak, Ahan and Choi, Nakjung and Wood, Timothy}, booktitle={Proceedings of the ACM SIGCOMM Workshop on 5G and Beyond Network Measurements, Modeling, and Use Cases}, pages={43--49}, year={2022} }
gholami2022application
10.1145/3538401.3546598
@inproceedings{gholami2022application, title={Application-specific, dynamic reservation of 5G compute and network resources by using reinforcement learning}, author={Gholami, Anousheh and Rao, Kunal and Hsiung, Wang-Pin and Po, Oliver and Sankaradas, Murugan and Baras, John S and Chakradhar, Srimat}, booktitle={Proceedings of the ACM SIGCOMM Workshop on Network-Application Integration}, pages={19--25}, year={2022} }
mori2022preliminary
10.1145/3538393.3544932
@inproceedings{mori2022preliminary, title={A preliminary analysis of data collection and retrieval scheme for green information-centric wireless sensor networks}, author={Mori, Shintaro}, booktitle={Proceedings of the ACM SIGCOMM Workshop on Networked Sensing Systems for a Sustainable Society}, pages={1--6}, year={2022} }
an2025tooth
null
@inproceedings{an2025tooth, title={Tooth: Toward Optimal Balance of Video $\{$QoE$\}$ and Redundancy Cost by $\{$Fine-Grained$\}$$\{$FEC$\}$ in Cloud Gaming Streaming}, author={An, Congkai and Zhang, Huanhuan and Wang, Shibo and Kang, Jingyang and Zhou, Anfu and Liu, Liang and Ma, Huadong and Meng, Zili and Ma, Delei and Dong, Yusheng and others}, booktitle={22nd USENIX Symposium on Networked Systems Design and Implementation (NSDI 25)}, pages={635--651}, year={2025} }
sentosa2025cellreplay
null
@inproceedings{sentosa2025cellreplay, title={$\{$CellReplay$\}$: Towards accurate record-and-replay for cellular networks}, author={Sentosa, William and Chandrasekaran, Balakrishnan and Godfrey, P Brighten and Hassanieh, Haitham}, booktitle={22nd USENIX Symposium on Networked Systems Design and Implementation (NSDI 25)}, pages={1169--1186}, year={2025} }
garg2025large
null
@inproceedings{garg2025large, title={Large Network $\{$UWB$\}$ Localization: Algorithms and Implementation}, author={Garg, Nakul and Shahid, Irtaza and Sheshadri, Ramanujan K and Sundaresan, Karthikeyan and Roy, Nirupam}, booktitle={22nd USENIX Symposium on Networked Systems Design and Implementation (NSDI 25)}, pages={1187--1203}, year={2025} }
kalia2025towards
null
@inproceedings{kalia2025towards, title={Towards Energy Efficient 5G vRAN Servers}, author={Kalia, Anuj and Lazarev, Nikita and Xue, Leyang and Foukas, Xenofon and Radunovic, Bozidar and Yan, Francis Y}, booktitle={USENIX Symposium on Networked Systems Design and Implementation (NSDI)}, year={2025} }
xie2025building
null
@inproceedings{xie2025building, title={Building Massive $\{$MIMO$\}$ Baseband Processing on a $\{$Single-Node$\}$ Supercomputer}, author={Xie, Xincheng and Hou, Wentao and Guo, Zerui and Liu, Ming}, booktitle={22nd USENIX Symposium on Networked Systems Design and Implementation (NSDI 25)}, pages={1221--1242}, year={2025} }
zhang2024tecc
null
@inproceedings{zhang2024tecc, title={$\{$TECC$\}$: Towards Efficient $\{$QUIC$\}$ Tunneling via Collaborative Transmission Control}, author={Zhang, Jiaxing and Yang, Furong and Liu, Ting and Wu, Qinghua and Zhao, Wu and Zhang, Yuanbo and Chen, Wentao and Liu, Yanmei and Guo, Hongyu and Ma, Yunfei and others}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={253--266}, year={2024} }
wang2024nn
10.5555/3691825.3691868
@inproceedings{wang2024nn, title={$\{$NN-Defined$\}$ Modulator: Reconfigurable and Portable Software Modulator on $\{$IoT$\}$ Gateways}, author={Wang, Jiazhao and Jiang, Wenchao and Liu, Ruofeng and Hu, Bin and Gao, Demin and Wang, Shuai}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={775--789}, year={2024} }
liu2024democratizing
10.5555/3691825.3691869
@article{liu2024democratizing, title={Democratizing direct-to-cell low earth orbit satellite networks}, author={Liu, Lixin and Li, Yuanjie and Li, Hewu and Yang, Jiabo and Liu, Wei and Lan, Jingyi and Wang, Yufeng and Li, Jiarui and Wu, Jianping and Wu, Qian and others}, journal={GetMobile: Mobile Computing and Communications}, volume={28}, number={2}, pages={5--10}, year={2024}, publisher={ACM New York, NY, USA} }
singh2024spectrumize
10.5555/3691825.3691871
@inproceedings{singh2024spectrumize, title={Spectrumize: Spectrum-efficient satellite networks for the internet of things}, author={Singh, Vaibhav and Chakraborty, Tusher and Jog, Suraj and Chabra, Om and Vasisht, Deepak and Chandra, Ranveer}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={825--840}, year={2024} }
balasingam2024application
10.5555/3691825.3691872
@misc{balasingam2024application, title={Application-Level Service Assurance with 5G RAN Slicing. In 2024 Networked Systems Design and Implementation. USENIX}, author={Balasingam, Arjun and Kotaru, Manikanta and Bahl, Victor}, year={2024}
du2024orthcatter
10.5555/3691825.3691897
@inproceedings{du2024orthcatter, title={Orthcatter: High-throughput in-band $\{$OFDM$\}$ backscatter with $\{$Over-the-Air$\}$ code division}, author={Du, Caihui and Yu, Jihong and Zhang, Rongrong and Ren, Ju and An, Jianping}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1301--1314}, year={2024}
ko2023edgeric
10.5555/3691825.3691898
@inproceedings{ko2024edgeric, title={$\{$EdgeRIC$\}$: Empowering real-time intelligent optimization and control in $\{$NextG$\}$ cellular networks}, author={Ko, Woo-Hyun and Ghosh, Ushasi and Dinesha, Ujwal and Wu, Raini and Shakkottai, Srinivas and Bharadia, Dinesh}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1315--1330}, year={2024} }
yin2024adr
10.5555/3691825.3691899
@inproceedings{yin2024adr, title={$\{$ADR-X$\}$:$\{$ANN-Assisted$\}$ Wireless Link Rate Adaptation for $\{$Compute-Constrained$\}$ Embedded Gaming Devices}, author={Yin, Hao and Ramanujam, Murali and Schaefer, Joe and Adermann, Stan and Narlanka, Srihari and Lea, Perry and Netravali, Ravi and Chintalapudi, Krishna}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1331--1349}, year={2024} }
dai2024rfid+
10.5555/3691825.3691900
@inproceedings{dai2024rfid+, title={$\{$RFID+$\}$: Spatially controllable identification of $\{$UHF$\}$$\{$RFIDs$\}$ via controlled magnetic fields}, author={Dai, Donghui and An, Zhenlin and Gong, Zheng and Pan, Qingrui and Yang, Lei}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1351--1367}, year={2024} }
wang2024smuff
10.5555/3691825.3691901
@inproceedings{wang2024smuff, title={$\{$SMUFF$\}$: Towards Line Rate $\{$Wi-Fi$\}$ Direct Transport with Orchestrated On-device Buffer Management}, author={Wang, Chengke and Wang, Hao and Zhou, Yuhan and Ni, Yunzhe and Qian, Feng and Xu, Chenren}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1369--1383}, year={2024} }
kim2024nr
10.5555/3691825.3691915
@inproceedings{kim2024nr, title={NR-Surface: NextG-ready $\mu$W-reconfigurable mmWave Metasurface.}, author={Kim, Minseok and Ahn, Namjo and Kim, Song Min}, booktitle={NSDI}, year={2024} }
li2024cyclops
10.5555/3691825.3691916
@inproceedings{li2024cyclops, title={Cyclops: A Nanomaterial-based,$\{$Battery-Free$\}$ Intraocular Pressure ($\{$$\{$$\{$$\{$$\{$IOP$\}$$\}$$\}$$\}$$\}$) Monitoring System inside Contact Lens}, author={Li, Liyao and Shang, Bozhao and Wu, Yun and Xiong, Jie and Chen, Xiaojiang and Xie, Yaxiong}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1659--1675}, year={2024} }
zhang2024habitus
10.5555/3691825.3691917
@inproceedings{zhang2024habitus, title={Habitus: boosting mobile immersive content delivery through full-body pose tracking and multipath networking}, author={Zhang, Anlan and Wang, Chendong and Hu, Yuming and Hassan, Ahmad and Zhang, Zejun and Han, Bo and Qian, Feng and Xu, Shichang}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1677--1695}, year={2024} }
yi2024bfmsense
10.5555/3691825.3691918
@inproceedings{yi2024bfmsense, title={$\{$BFMSense$\}$:$\{$WiFi$\}$ sensing using beamforming feedback matrix}, author={Yi, Enze and Wu, Dan and Xiong, Jie and Zhang, Fusang and Niu, Kai and Li, Wenwei and Zhang, Daqing}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1697--1712}, year={2024} }
chae2024mmcomb
10.5555/3691825.369191
@inproceedings{chae2024mmcomb, title={$\{$mmComb$\}$: High-speed $\{$mmWave$\}$ Commodity $\{$WiFi$\}$ Backscatter}, author={Chae, Yoon and Lin, Zhenzhe and Bae, Kang Min and Kim, Song Min and Pathak, Parth}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1713--1729}, year={2024} }
yuan2024sidekick
10.5555/3691825.3691924
@inproceedings{yuan2024sidekick, title={Sidekick:$\{$In-Network$\}$ Assistance for Secure $\{$End-to-End$\}$ Transport Protocols}, author={Yuan, Gina and Sotoudeh, Matthew and Zhang, David K and Welzl, Michael and Mazi{\`e}res, David and Winstein, Keith}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1813--1830}, year={2024} }
carver2023catch
10.1145/3570361.3614081
@inproceedings{carver2023catch, title={Catch me if you can: Demonstrating laser tethering with highly mobile targets}, author={Carver, Charles J and Schwartz, Hadleigh and Shao, Qijia and Shade, Nicholas and Lazzaro, Joseph P and Wang, Xiaoxin and Liu, Jifeng and Fossum, Eric R and Zhou, Xia}, booktitle={Proceedings of the 29th Annual International Conference on Mobile Computing and Networking}, pages={1--3}, year={2023} }
fan2024passengers
10.5555/3691825.3691928
@inproceedings{fan2024passengers, title={Passengers' Safety Matters: Experiences of Deploying a $\{$Large-Scale$\}$ Indoor Delivery Monitoring System}, author={Fan, Xiubin and Lin, Zhongming and Hu, Yuming and Jiang, Tianrui and Qian, Feng and Yin, Zhimeng and Chan, S-H Gary and Wu, Dapeng}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1883--1900}, year={2024} }
zhou2024augur
10.5555/3691825.3691929
@inproceedings{zhou2024augur, title={$\{$AUGUR$\}$: Practical Mobile Multipath Transport Service for Low Tail Latency in $\{$Real-Time$\}$ Streaming}, author={Zhou, Yuhan and Wang, Tingfeng and Wang, Liying and Wen, Nian and Han, Rui and Wang, Jing and Wu, Chenglei and Chen, Jiafeng and Jiang, Longwei and Wang, Shibo and others}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1901--1916}, year={2024} }
shahid2024cloud
10.5555/3691825.3691932
@inproceedings{shahid2024cloud, title={$\{$Cloud-LoRa$\}$: Enabling Cloud Radio Access $\{$LoRa$\}$ Networks Using Reinforcement Learning Based $\{$Bandwidth-Adaptive$\}$ Compression}, author={Shahid, Muhammad Osama and Koch, Daniel and Raghuram, Jayaram and Krishnaswamy, Bhuvana and Chintalapudi, Krishna and Banerjee, Suman}, booktitle={21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)}, pages={1959--1976}, year={2024} }
kludze2023leakyscatter
null
@inproceedings{kludze2023leakyscatter, title={$\{$LeakyScatter$\}$: A $\{$Frequency-Agile$\}$ directional backscatter network above 100 $\{$GHz$\}$}, author={Kludze, Atsutse and Ghasempour, Yasaman}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={375--388}, year={2023} }
li2023rf
null
@inproceedings{li2023rf, title={$\{$RF-Bouncer$\}$: A programmable dual-band metasurface for sub-6 wireless networks}, author={Li, Xinyi and Feng, Chao and Wang, Xiaojing and Zhang, Yangfan and Xie, Yaxiong and Chen, Xiaojiang}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={389--404}, year={2023} }
sentosa2023dchannel
10.1145/3446382.3448357
@inproceedings{sentosa2023dchannel, title={$\{$DChannel$\}$: Accelerating Mobile Applications With Parallel High-bandwidth and Low-latency Channels}, author={Sentosa, William and Chandrasekaran, Balakrishnan and Godfrey, P Brighten and Hassanieh, Haitham and Maggs, Bruce}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={419--436}, year={2023} }
mishra2023openlora
null
@inproceedings{mishra2023openlora, title={$\{$OpenLoRa$\}$: Validating $\{$LoRa$\}$ Implementations through an Extensible and Open-sourced Framework}, author={Mishra, Manan and Koch, Daniel and Shahid, Muhammad Osama and Krishnaswamy, Bhuvana and Chintalapudi, Krishna and Banerjee, Suman}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1165--1183}, year={2023}
zhang2023vecare
null
@inproceedings{zhang2023vecare, title={$\{$VeCare$\}$: Statistical acoustic sensing for automotive $\{$In-Cabin$\}$ monitoring}, author={Zhang, Yi and Hou, Weiying and Yang, Zheng and Wu, Chenshu}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1185--1200}, year={2023} }
zhao2023slimwifi
null
@inproceedings{zhao2023slimwifi, title={$\{$SlimWiFi$\}$:$\{$Ultra-Low-Power$\}$$\{$IoT$\}$ Radio Architecture Enabled by Asymmetric Communication}, author={Zhao, Renjie and Wang, Kejia and Zheng, Kai and Zhang, Xinyu and Leung, Vincent}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1201--1219}, year={2023} }
yang2023slnet
null
@inproceedings{yang2023slnet, title={$\{$SLNet$\}$: A spectrogram learning neural network for deep wireless sensing}, author={Yang, Zheng and Zhang, Yi and Qian, Kun and Wu, Chenshu}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1221--1236}, year={2023} }
ni2023polycorn
null
@inproceedings{ni2023polycorn, title={$\{$POLYCORN$\}$: Data-driven cross-layer multipath networking for high-speed railway through composable schedulerlets}, author={Ni, Yunzhe and Qian, Feng and Liu, Taide and Cheng, Yihua and Ma, Zhiyao and Wang, Jing and Wang, Zhongfeng and Huang, Gang and Liu, Xuanzhe and Xu, Chenren}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1325--1340}, year={2023} }
boroushaki2023augmenting
null
@inproceedings{boroushaki2023augmenting, title={Augmenting augmented reality with $\{$Non-Line-of-Sight$\}$ perception}, author={Boroushaki, Tara and Lam, Maisy and Dodds, Laura and Eid, Aline and Adib, Fadel}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1341--1358}, year={2023} }
zhang2023acoustic
null
@inproceedings{zhang2023acoustic, title={Acoustic sensing and communication using metasurface}, author={Zhang, Yongzhao and Wang, Yezhou and Yang, Lanqing and Wang, Mei and Chen, Yi-Chao and Qiu, Lili and Liu, Yihong and Xue, Guangtao and Yu, Jiadi}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1359--1374}, year={2023} }
meng2023enabling
null
@inproceedings{meng2023enabling, title={Enabling high quality $\{$Real-Time$\}$ communications with adaptive $\{$Frame-Rate$\}$}, author={Meng, Zili and Wang, Tingfeng and Shen, Yixin and Wang, Bo and Xu, Mingwei and Han, Rui and Liu, Honghao and Arun, Venkat and Hu, Hongxin and Wei, Xue}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1429--1450}, year={2023} }
tan2023celldam
null
@inproceedings{tan2023celldam, title={$\{$CellDAM$\}$:$\{$User-Space$\}$, Rootless Detection and Mitigation for 5G Data Plane}, author={Tan, Zhaowei and Zhao, Jinghao and Ding, Boyan and Lu, Songwu}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1601--1619}, year={2023} }
cho2023mmwall
null
@inproceedings{cho2023mmwall, title={$\{$mmWall$\}$: A Steerable, Transflective Metamaterial Surface for $\{$NextG$\}$$\{$mmWave$\}$ Networks}, author={Cho, Kun Woo and Mazaheri, Mohammad H and Gummeson, Jeremy and Abari, Omid and Jamieson, Kyle}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1647--1665}, year={2023} }
chen2023channel
null
@inproceedings{chen2023channel, title={$\{$Channel-Aware$\}$ 5g $\{$RAN$\}$ slicing with customizable schedulers}, author={Chen, Yongzhou and Yao, Ruihao and Hassanieh, Haitham and Mittal, Radhika}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1767--1782}, year={2023} }
liu2023exploring
null
@inproceedings{liu2023exploring, title={Exploring practical vulnerabilities of machine learning-based wireless systems}, author={Liu, Zikun and Xu, Changming and Sie, Emerson and Singh, Gagandeep and Vasisht, Deepak}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1801--1817}, year={2023} }
liang2023rf
null
@inproceedings{liang2023rf, title={$\{$RF-Chord$\}$: Towards deployable $\{$RFID$\}$ localization system for logistic networks}, author={Liang, Bo and Wang, Purui and Zhao, Renjie and Guo, Heyu and Zhang, Pengyu and Guo, Junchen and Zhu, Shunmin and Liu, Hongqiang Harry and Zhang, Xinyu and Xu, Chenren}, booktitle={20th USENIX Symposium on Networked Systems Design and Implementation (NSDI 23)}, pages={1783--1799}, year={2023} }
basit2025metamorphosis
null
@inproceedings{basit2025metamorphosis, author = {Basit, Omar and Khan, Imran and Ghoshal, Moinak and Hu, Y. Charlie and Koutsonikolas, Dimitrios}, title = {{5G} Metamorphosis: A Longitudinal Study of {5G} Performance from the Beginning}, booktitle = {Proceedings of the 2025 ACM Internet Measurement Conference (IMC '25)}, year = {2025}, address = {New York, NY, USA} }
sundberg2024measuring
10.1145/3646547.3688438
@inproceedings{sundberg2024measuring, title={Measuring Network Latency from a Wireless ISP: Variations Within and Across Subnets}, author={Sundberg, Simon and Brunstrom, Anna and Ferlin-Reiter, Simone and H{\o}iland-J{\o}rgensen, Toke and Chac{\'o}n, Robert}, booktitle={Proceedings of the 2024 ACM on Internet Measurement Conference}, pages={29--43}, year={2024} }
sharma2024longitudinal
10.1145/3646547.3689007
@inproceedings{sharma2024longitudinal, title={A Longitudinal Study of the Prevalence of WiFi Bottlenecks in Home Access Networks}, author={Sharma, Ranya and Feamster, Nick and Richardson, Marc}, booktitle={Proceedings of the 2024 ACM on Internet Measurement Conference}, pages={44--50}, year={2024} }
yang2024characterizing
10.1145/3646547.3688433
@inproceedings{yang2024characterizing, title={Characterizing the Security Facets of IoT Device Setup}, author={Yang, Han and Kuzniar, Carson and Jiang, Chengyan and Nikolaidis, Ioanis and Haque, Israat}, booktitle={Proceedings of the 2024 ACM on Internet Measurement Conference}, pages={612--621}, year={2024} }
kalntis2024through
10.1145/3646547.3688452
@inproceedings{kalntis2024through, title={Through the Telco Lens: A Countrywide Empirical Study of Cellular Handovers}, author={Kalntis, Michail and Su{\'a}rez-Varela, Jos{\'e} and Iglesias, Jes{\'u}s Oma{\~n}a and Bhattacharjee, Anup Kiran and Iosifidis, George and Kuipers, Fernando A and Lutu, Andra}, booktitle={Proceedings of the 2024 ACM on Internet Measurement Conference}, pages={51--67}, year={2024} }
ibrahim2023tag
10.1145/3618257.3624834
@inproceedings{ibrahim2023tag, title={I tag, you tag, everybody tags!}, author={Ibrahim, Hazem and Asim, Rohail and Varvello, Matteo and Zaki, Yasir}, booktitle={Proceedings of the 2023 ACM on Internet Measurement Conference}, pages={561--568}, year={2023} }
bakirtzis2023characterizing
10.1145/3618257.3624807
@inproceedings{bakirtzis2023characterizing, title={Characterizing mobile service demands at indoor cellular networks}, author={Bakirtzis, Stefanos and Zanella, Andr{\'e} Felipe and Rubrichi, Stefania and Ziemlicki, Cezary and Smoreda, Zbigniew and Wassell, Ian and Zhang, Jie and Fiore, Marco}, booktitle={Proceedings of the 2023 ACM on Internet Measurement Conference}, pages={645--659}, year={2023} }
meng2023modeling
10.1145/3618257.3624808
@inproceedings{meng2023modeling, title={Modeling and generating control-plane traffic for cellular networks}, author={Meng, Jiayi and Huang, Jingqi and Hu, Y Charlie and Koral, Yaron and Lin, Xiaojun and Shahbaz, Muhammad and Sharma, Abhigyan}, booktitle={Proceedings of the 2023 ACM on Internet Measurement Conference}, pages={660--677}, year={2023} }
ghoshal2023performance
10.1145/3618257.3624814
@inproceedings{ghoshal2023performance, title={Performance of cellular networks on the wheels}, author={Ghoshal, Moinak and Khan, Imran and Kong, Z Jonny and Dinh, Phuc and Meng, Jiayi and Hu, Y Charlie and Koutsonikolas, Dimitrios}, booktitle={Proceedings of the 2023 ACM on Internet Measurement Conference}, pages={678--695}, year={2023} }
zanella2023characterizing
10.1145/3618257.3624825
@inproceedings{zanella2023characterizing, title={Characterizing and modeling session-level mobile traffic demands from large-scale measurements}, author={Zanella, Andr{\'e} Felipe and Bazco-Nogueras, Antonio and Ziemlicki, Cezary and Fiore, Marco}, booktitle={Proceedings of the 2023 ACM on Internet Measurement Conference}, pages={696--709}, year={2023} }
michel2022first
10.1145/3517745.3561416
@inproceedings{michel2022first, title={A first look at starlink performance}, author={Michel, Fran{\c{c}}ois and Trevisan, Martino and Giordano, Danilo and Bonaventure, Olivier}, booktitle={Proceedings of the 22nd ACM Internet Measurement Conference}, pages={130--136}, year={2022} }
saidi2022deep
10.1145/3517745.3561431
@inproceedings{saidi2022deep, title={Deep dive into the IoT backend ecosystem}, author={Saidi, Said Jawad and Matic, Srdjan and Gasser, Oliver and Smaragdakis, Georgios and Feldmann, Anja}, booktitle={Proceedings of the 22nd ACM internet measurement conference}, pages={488--503}, year={2022} }
End of preview.

πŸ“Ά Wireless Taxonomy Dataset

The Wireless Taxonomy Dataset is a structured corpus of wireless communication research metadata, created to support the development of a standardized benchmark for the wireless research community.
It captures the relationships between datasets, papers, and citations, emphasizing data provenance, collection environments, and modality-level detail across the OSI stack.

This taxonomy was curated as part an effort to systematically identify and classify datasets collected from real-world, lab-based, or high-fidelity wireless environments.

🧭 Overview

The dataset provides a unified reference for wireless research data sources, including:

  • Publications from ACM SIGCOMM, IMC, and CoNEXT (2022–2025)
  • Descriptions of datasets used or generated in these papers
  • Mappings between datasets, publications, and BibTeX references

The curation emphasizes datasets that involve physical or trace-driven wireless environments, such as operational LTE/5G systems, SDR testbeds, or validated wireless emulations.

πŸ—‚οΈ Dataset Structure

This repository consists of three interlinked CSV tables, each available as a configuration:

Config File Description
datasets Wireless_Datasets.csv Metadata describing qualifying wireless datasets, including dataset names, OSI layer coverage, modalities, and collection environments.
papers Wireless_Papers.csv A structured index of research papers analyzed, including authors, venues, years, dataset usage, and taxonomy keys.
bibtex Bibtex.csv Canonical citation metadata linking publications to datasets via shared BibTeX keys.

πŸ”— Linking and Relational Schema

Each table contains a shared relational variable: bibtex_citation_key.
This key enables relational joins across the three tables.

  • A single dataset may link to multiple papers (e.g., reused benchmarks).
  • Papers may list multiple datasets.
  • Merging on bibtex_citation_key reconstructs the complete dataset–paper–citation graph.

πŸ§ͺ Methodology

The taxonomy was constructed through a combination of structured corpus analysis and manual validation.
Publications from major networking and wireless conferences between 2022 and 2025 were reviewed to identify papers containing datasets from qualifying wireless environments β€” namely, real-world deployments, physical testbeds, or high-fidelity simulations/emulations.

πŸ“‘ Schema Description

Field Description
dataset_name Name or descriptive identifier of the dataset.
bibtex_citation_key Shared key linking datasets to papers and citations.
osi_layers OSI layers represented in the dataset (e.g., L1, L4).
modalities Collected data types (e.g., RF traces, latency, throughput).
availability Indicates whether the dataset is open, closed, or n/a.
collection_environment Describes how the dataset was collected: Real-world deployment, Physical Testbed, or High-Fidelity Simulation.

βš™οΈ Example Usage 

from datasets import load_dataset

# Load the dataset taxonomy
datasets_table = load_dataset("your-hf-username/wireless_taxonomy", name="datasets", split="train")

# Explore papers and linked citations
papers_table = load_dataset("your-hf-username/wireless_taxonomy", name="papers", split="train")
bib_table = load_dataset("your-hf-username/wireless_taxonomy", name="bibtex", split="train")

# Join tables via the BibTeX citation key
import pandas as pd

df = pd.merge(datasets_table.to_pandas(), papers_table.to_pandas(), on="bibtex_citation_key")
df.head()
Downloads last month
41