Search

Your search keyword '"Jin, Yichao"' showing total 126 results
Start Over Author "Jin, Yichao" Search Limiters Available in Library Collection
126 results on '"Jin, Yichao"'

1. Modeling and Analysis of Multi-Line Orders in Multi-Tote Storage and Retrieval Autonomous Mobile Robot Systems

Author

Shan, Xiaotao, Jin, Yichao, Li, Peizheng, and Kondo, Koichi

Subjects
Computer Science - Robotics, Computer Science - Multiagent Systems
Abstract

As warehouses are emphasizing space utilization and the ability to handle multi-line orders, multi-tote storage and retrieval (MTSR) autonomous mobile robot systems, where robots directly retrieve totes from high shelves, are becoming increasingly popular. This paper presents a novel shared-token, multi-class, semi-open queueing network model to account for multi-line orders with general distribution forms in MTSR systems. The numerical results obtained from solving the SOQN model are validated against discrete-event simulation, with most key performance metrics demonstrating high accuracy. In our experimental setting, results indicate a 12.5% reduction in the minimum number of robots needed to satisfy a specific order arrival rate using the closest retrieval sequence policy compared with the random policy. Increasing the number of tote buffer positions on a robot can greatly reduce the number of robots required in the warehouse., Comment: 8 pages, 5 figures. This paper has been accepted for publication in IEEE 20th International Conference on Automation Science and Engineering (IEEE CASE 2024)

Published
2024

2. Polarization and quantum entanglement effects in $B^\pm_c\to J/\psi+\pi^\pm +\pi^0$ process

Author

Chen, Kaiwen, Geng, Yiqi, Jin, Yichao, Yan, Zhicheng, and Zhu, Ruilin

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

Motivated by the very recent observation of the $B^+_c\to J/\psi+\pi^+ +\pi^0$ decay using proton-proton collision data by the LHCb collaboration, we study the four-body angular distributions and the quantum entanglement effects in the $B^+_c\to J/\psi+\pi^+ +\pi^0$ associated with $J/\psi\to \mu^++\mu^-$. The helicity angular distributions are given in the QCD effective theory and the von Neumann entropy is obtained in $B^\pm_c\to J/\psi(\to \mu^+\mu^-)+\rho^\pm(\to \pi^\pm \pi^0)$ decay process., Comment: 5 pages and 5 figures

Published
2024

3. UMBRELLA: A One-stop Shop Bridging the Gap from Lab to Real-World IoT Experimentation

Author

Mavromatis, Ioannis, Jin, Yichao, Stanoev, Aleksandar, Portelli, Anthony, Weeks, Ingram, Holden, Ben, Glasspole, Eliot, Farnham, Tim, Khan, Aftab, Raza, Usman, Aijaz, Adnan, Bierton, Thomas, Seto, Ichiro, Patel, Nita, and Sooriyabandara, Mahesh

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Software Engineering, Electrical Engineering and Systems Science - Systems and Control
Abstract

UMBRELLA is an open, large-scale IoT ecosystem deployed across South Gloucestershire, UK. It is intended to accelerate innovation across multiple technology domains. UMBRELLA is built to bridge the gap between existing specialised testbeds and address holistically real-world technological challenges in a System-of-Systems (SoS) fashion. UMBRELLA provides open access to real-world devices and infrastructure, enabling researchers and the industry to evaluate solutions for Smart Cities, Robotics, Wireless Communications, Edge Intelligence, and more. Key features include over 200 multi-sensor nodes installed on public infrastructure, a robotics arena with 20 mobile robots, a 5G network-in-a-box solution, and a unified backend platform for management, control and secure user access. The heterogeneity of hardware components, including diverse sensors, communication interfaces, and GPU-enabled edge devices, coupled with tools like digital twins, allows for comprehensive experimentation and benchmarking of innovative solutions not viable in lab environments. This paper provides a comprehensive overview of UMBRELLA's multi-domain architecture and capabilities, making it an ideal playground for Internet of Things (IoT) and Industrial IoT (IIoT) innovation. It discusses the challenges in designing, developing and operating UMBRELLA as an open, sustainable testbed and shares lessons learned to guide similar future initiatives. With its unique openness, heterogeneity, realism and tools, UMBRELLA aims to continue accelerating cutting-edge technology research, development and translation into real-world progress., Comment: Submitted for publication to IEEE Access

Published
2024

5. Securing Synchronous Flooding Communications: An Atomic-SDN Implementation

Author

Lockie, Charles, Mavromatis, Ioannis, Stanoev, Aleksandar, Jin, Yichao, and Oikonomou, George

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Synchronous Flooding (SF) protocols can enhance the wireless connectivity between Internet of Things (IoT) devices. However, existing SF solutions fail to introduce sufficient security measures due to strict time synchronisation requirements, making them vulnerable to malicious actions. Our paper presents a design paradigm for encrypted SF communications. We describe a mechanism for synchronising encryption parameters in a network-wide fashion. Our solution operates with minimal overhead and without compromising communication reliability. Evaluating our paradigm on a real-world, large-scale IoT testbed, we have proven that a communication layer impervious to a range of attacks is established without sacrificing the network performance., Comment: Accepted for Publication to EWSN 2022

Published
2022
Full Text
View/download PDF

6. A Dataset of Images of Public Streetlights with Operational Monitoring using Computer Vision Techniques

Author

Mavromatis, Ioannis, Stanoev, Aleksandar, Carnelli, Pietro, Jin, Yichao, Sooriyabandara, Mahesh, and Khan, Aftab

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

A dataset of street light images is presented. Our dataset consists of $\sim350\textrm{k}$ images, taken from 140 UMBRELLA nodes installed in the South Gloucestershire region in the UK. Each UMBRELLA node is installed on the pole of a lamppost and is equipped with a Raspberry Pi Camera Module v1 facing upwards towards the sky and lamppost light bulb. Each node collects an image at hourly intervals for 24h every day. The data collection spans for a period of six months. Each image taken is logged as a single entry in the dataset along with the Global Positioning System (GPS) coordinates of the lamppost. All entries in the dataset have been post-processed and labelled based on the operation of the lamppost, i.e., whether the lamppost is switched ON or OFF. The dataset can be used to train deep neural networks and generate pre-trained models providing feature representations for smart city CCTV applications, smart weather detection algorithms, or street infrastructure monitoring. The dataset can be found at \url{https://doi.org/10.5281/zenodo.6046758}., Comment: Data in Brief Journal

Published
2022
Full Text
View/download PDF

7. Reliable IoT Firmware Updates: A Large-scale Mesh Network Performance Investigation

Author

Mavromatis, Ioannis, Stanoev, Aleksandar, Portelli, Anthony J., Lockie, Charles, Ammann, Marius, Jin, Yichao, and Sooriyabandara, Mahesh

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Internet of Things (IoT) networks require regular firmware updates to ensure enhanced security and stability. As we move towards methodologies of codifying security and policy decisions and exchanging them over IoT large-scale deployments (security-as-a-code), these demands should be considered a routine operation. However, rolling out firmware updates to large-scale networks presents a crucial challenge for constrained wireless environments with large numbers of IoT devices. This paper initially investigates how the current state-of-the-art protocols operate in such adverse conditions by measuring various Quality-of-Service (QoS) Key Performance Indicators (KPIs) of the shared wireless medium. We later discuss how Concurrent Transmissions (CT) can extend the scalability of IoT protocols and ensure reliable firmware roll-outs over large geographical areas. Measuring KPIs such as the mesh join time, the throughput, and the number of nodes forming a network, we provide great insight into how an IoT environment will behave under a large-scale firmware roll-out. Finally, we conducted our performance investigation over the UMBRELLA platform, a real-world IoT testbed deployed in Bristol, UK. This ensures our findings represent a realistic IoT scenario and meet the strict QoS requirements of today's IoT applications., Comment: Accepted to IEEE WCNC 2022, Austin, Texas, USA

Published
2022
Full Text
View/download PDF

9. Recursive Periodicity Shifting for Semi-Persistent Scheduling of Time-Sensitive Communication in 5G

Author

Jiang, Nan, Aijaz, Adnan, and Jin, Yichao

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Various legacy and emerging industrial control applications create the requirement of periodic and time-sensitive communication (TSC) for 5G/6G networks. State-of-the-art semi-persistent scheduling (SPS) techniques fall short of meeting the requirements of this type of critical traffic due to periodicity misalignment between assignments and arriving packets that lead to significant waiting delays. To tackle this challenge, we develop a novel recursive periodicity shifting (RPS)-SPS scheme that provides an optimal scheduling policy by recursively aligning the period of assignments until the timing mismatch is minimized. RPS can be realized in 5G wireless networks with minimal modifications to the scheduling framework. Performance evaluation shows the effectiveness of the proposed scheme in terms of minimizing misalignment delay with arbitrary traffic periodicity., Comment: To appear in Proc. of IEEE Global Commun. Conf. (GLOBECOM), 2021

Published
2021

12. A Self-Configurable Grouping Method for Integrated Wi-SUN FAN and TSCH-based Networks

Author

Ni, Xinyu, Baddeley, Michael, Jiang, Nan, and Jin, Yichao

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Recent applications in large-scale wireless mesh networks (WSN), e.g., Advanced Metering Infrastructure (AMI) scenarios, expect to support an extended number of nodes with higher throughput, which cannot be sufficiently supported by the current WSN protocols. Two prior protocols, Wi-SUN Field Area Network (Wi-SUN FAN) and IETF 6TiSCH standards, are popularly used that are respectively based on asynchronous Carrier Sense Multiple Access / Collision Avoidance (CSMA/CA) and IEEE 802.15.4 Time Scheduled Channel Hopping (TSCH). However, the former one with CSMA/CA can be prone to the Hidden Node Problem (HNP) that leads to a degradation of reliability, while the latter one with TSCH avoids HNP by using synchronously scheduling but requires massive control signalling that degrades the upper-bound of throughput. Accordingly, this paper tackles the challenge of how to improve the upper-bound of throughput without loss of reliability. To do so, we first present an in-depth evaluation of reliability and throughput between the two existing standards via system-level simulation. We then propose a self-configurable grouping (SCG) method to cluster nodes without using location information of each node. This SCG method eliminates around 99\% HNP in CSMA/CA, thus greatly improves its reliability with maintaining the relatively high upper-bound of throughput. Our results show that the SCG method almost doubles the network throughput compared with both 6TiSCH and Wi-SUN FAN in heavy traffic scenarios, while providing extremely high reliability of more than 99.999\%.

Published
2021

13. Risk Factors for Endometrial Lesions Detected by Hysteroscopy in Breast Cancer Patients Taking Tamoxifen

Author

LI Yujing, JIN Yichao, CHEN Xing, JI Mengying, DAI Huihua

Subjects
breast neoplasms, tamoxifen, endometrial hyperplasia, hysteroscopy, endometrial lesions, endometrial thickness, risk factors, Medicine
Abstract

Background Breast cancer has become the most common malignant tumor threatening the health of Chinese women in recent years. The use of tamoxifen (TAM) has successfully reduced the recurrence and progression of estrogen receptor-positive breast cancer, however, it also increases the risk of endometrial lesions. Objective To explore the risk factors for endometrial lesions in breast cancer patients taking TAM, determine the optimal threshold value of endometrial thickness, and improve the positive detection rate of hysteroscopy. Methods Breast cancer patients taking TAM (20 mg/d) who underwent hysteroscopic endometrial biopsy admitted to the Department of Gynecology of the First Affiliated Hospital with Nanjing Medical University from January 2015 to January 2022 were retrospectively selected as the study objects and divided into the negative hysteroscopic endometrial biopsy group (normal endometrium) and positive hysteroscopic endometrial biopsy group (endometrial lesions including endometrial polyps, endometrial hyperplasia without atypia, endometrial atypical hyperplasia and endometrial carcinoma). Clinical data of the patients were collected, including age, BMI, history of hypertension and diabetes, delivery times, presence of menopause and abnormal uterine bleeding/postmenopausal bleeding (AUB/PMB), receiving of chemotherapy, duration of TAM treatment, use of gonadotropin-releasing hormone agonists (GnRH-a), endometrial thickness, echo features of intrauterine lesions. Multivariate Logistic regression analysis was used to explore the risk factors for endometrial lesions in breast cancer patients taking TAM. The receiver operating characteristic (ROC) curve of endometrial thickness for predicting endometrial lesions detected by hysteroscopy was plotted, and the area under the ROC curve (AUC) and its 95%CI were calculated to determine the optimal cut-off value of endometrial thickness for receiving hysteroscopic surgery. Results The proportion of patients with AUB/PMB, duration of TAM treatment≥24 months, intrauterine hyperechoic lesions and endometrial thickness in the positive hysteroscopic endometrial biopsy group were higher than those in the negative hysteroscopic endometrial biopsy group (P

Published
2023
Full Text
View/download PDF

15. 6TiSCH++ with Bluetooth 5 and Concurrent Transmissions

Author

Baddeley, Michael, Aijaz, Adnan, Raza, Usman, Stanoev, Aleksandar, Jin, Yichao, Schuß, Markus, Boano, Carlo Alberto, and Oikonomou, George

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Targeting dependable communications for industrial Internet of Things applications, IETF 6TiSCH provides mechanisms for efficient scheduling, routing, and forwarding of IPv6 traffic across low-power mesh networks. Yet, despite an overwhelming body of literature covering both centralized and distributed scheduling schemes for 6TiSCH, an effective control solution for large-scale multi-hop mesh networks remains an open challenge. This paper addresses this with a novel approach that eliminates much of the routing and link-layer overhead incurred by centralized schedulers, and provides a robust mechanism for data dissemination synchronization within 6TiSCH. Specifically, we leverage the physical layer (PHY) switching capabilities of modern low-power wireless platforms to build on recent work demonstrating the viability of Concurrent Transmission (CT)-based flooding protocols across the Bluetooth 5 (BT 5) PHYs. By switching the PHY and MAC layer at runtime, we inject a BT 5-based CT flood within a standard IEEE 802.15.4 TSCH slotframe, thereby providing a reliable, low-latency scheme for 6TiSCH control messaging. We present an analytical model and experimental evaluation showing how our solution not only exploits the BT 5 high data-rate PHY layers for rapid data dissemination, but can also provide reliable 6TiSCH association and synchronization even under external radio interference. We further discuss how the proposed technique can be used to address other open challenges within the standard.

Published
2020

16. Hysia: Serving DNN-Based Video-to-Retail Applications in Cloud

Author

Zhang, Huaizheng, Li, Yuanming, Ai, Qiming, Luo, Yong, Wen, Yonggang, Jin, Yichao, and Ta, Nguyen Binh Duong

Subjects
Computer Science - Multimedia, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning
Abstract

Combining \underline{v}ideo streaming and online \underline{r}etailing (V2R) has been a growing trend recently. In this paper, we provide practitioners and researchers in multimedia with a cloud-based platform named Hysia for easy development and deployment of V2R applications. The system consists of: 1) a back-end infrastructure providing optimized V2R related services including data engine, model repository, model serving and content matching; and 2) an application layer which enables rapid V2R application prototyping. Hysia addresses industry and academic needs in large-scale multimedia by: 1) seamlessly integrating state-of-the-art libraries including NVIDIA video SDK, Facebook faiss, and gRPC; 2) efficiently utilizing GPU computation; and 3) allowing developers to bind new models easily to meet the rapidly changing deep learning (DL) techniques. On top of that, we implement an orchestrator for further optimizing DL model serving performance. Hysia has been released as an open source project on GitHub, and attracted considerable attention. We have published Hysia to DockerHub as an official image for seamless integration and deployment in current cloud environments., Comment: 4 pages, 4 figures

Published
2020
Full Text
View/download PDF

20. Towards Wi-Fi AP-Assisted Content Prefetching for On-Demand TV Series: A Reinforcement Learning Approach

Author

Hu, Wen, Jin, Yichao, Wen, Yonggang, Wang, Zhi, and Sun, Lifeng

Subjects
Computer Science - Multimedia
Abstract

The emergence of smart Wi-Fi APs (Access Point), which are equipped with huge storage space, opens a new research area on how to utilize these resources at the edge network to improve users' quality of experience (QoE) (e.g., a short startup delay and smooth playback). One important research interest in this area is content prefetching, which predicts and accurately fetches contents ahead of users' requests to shift the traffic away during peak periods. However, in practice, the different video watching patterns among users, and the varying network connection status lead to the time-varying server load, which eventually makes the content prefetching problem challenging. To understand this challenge, this paper first performs a large-scale measurement study on users' AP connection and TV series watching patterns using real-traces. Then, based on the obtained insights, we formulate the content prefetching problem as a Markov Decision Process (MDP). The objective is to strike a balance between the increased prefetching&storage cost incurred by incorrect prediction and the reduced content download delay because of successful prediction. A learning-based approach is proposed to solve this problem and another three algorithms are adopted as baselines. In particular, first, we investigate the performance lower bound by using a random algorithm, and the upper bound by using an ideal offline approach. Then, we present a heuristic algorithm as another baseline. Finally, we design a reinforcement learning algorithm that is more practical to work in the online manner. Through extensive trace-based experiments, we demonstrate the performance gain of our design. Remarkably, our learning-based algorithm achieves a better precision and hit ratio (e.g., 80%) with about 70% (resp. 50%) cost saving compared to the random (resp. heuristic) algorithm.

Published
2017

23. UMBRELLA: A One-Stop Shop Bridging the Gap From Lab to Real-World IoT Experimentation

Author

Mavromatis, Ioannis, primary, Jin, Yichao, additional, Stanoev, Aleksandar, additional, Portelli, Anthony, additional, Weeks, Ingram, additional, Holden, Ben, additional, Glasspole, Eliot, additional, Farnham, Tim, additional, Khan, Aftab, additional, Raza, Usman, additional, Aijaz, Adnan, additional, Bierton, Thomas, additional, Seto, Ichiro, additional, Patel, Nita, additional, and Sooriyabandara, Mahesh, additional

Published
2024
Full Text
View/download PDF

24. Enhancing User Experience for Multi-Screen Social TV Streaming over Wireless Networks

Author

Zhang, Huazi, Jin, Yichao, Zhang, Weiwen, and Wen, Yonggang

Subjects
Computer Science - Multimedia
Abstract

Recently, multi-screen cloud social TV is invented to transform TV into social experience. People watching the same content on social TV may come from different locations, while freely interact with each other through text, image, audio and video. This crucial virtual living-room experience adds social aspects into existing performance metrics. In this paper, we parse social TV user experience into three elements (i.e., inter-user delay, video quality of experience (QoE), and resource efficiency), and provide a joint analytical framework to enhance user experience. Specifically, we propose a cloud-based optimal playback rate allocation scheme to maximize the overall QoE while upper bounding inter-user delay. Experiment results show that our algorithm achieves near-optimal tradeoff between inter-user delay and video quality, and demonstrates resilient performance even under very fast wireless channel fading., Comment: submitted to IEEE GLOBECOM 2014

Published
2014
Full Text
View/download PDF

27. Intelligent task allocation in multi-hop wireless networks

Author

Jin, Yichao

Subjects
621.382
Abstract

Multi-hop Wireless Networks (MHWNs) provide an inexpensive and ubiquitous communication paradigm for the Internet of Things (IoT) to seamlessly network the surrounding objects. However, in order to meet different system requirements such as end-to-end delay and energy efficiency, there are still many challenges that need to be solved in such resource constrained networks. Intelligent task allocation and scheduling offers a promising solution, which enables in-network parallel processing and allows network nodes to share resources and interact with each other via multi-hop communication links. The objective of this thesis is to enhance resource sharing in MHWNs and to improve system performance from the task allocation point of view. This task allocation and scheduling problem in MHWNs is very challenging when complex network aspects are taken into account, such as shared multi-hop wireless communication environment, node heterogeneity and structure-less network topology. Moreover, network dynamics further complicate the problem. For instance, node mobility and failure events can easily cause an optimized task allocation solution to become invalid. In such case, a complete re-run of the optimization algorithm from the scratch is not computationally efficient. To tackle these challenges, this thesis recommends a Genetic Algorithm (GA) based evolutionary task allocation approach and provides an effective, adaptive, and scalable task allocation system for MHWNs. There are three main system components proposed in this thesis: an Intelligent Task Allocation and Scheduling (ITAS) scheme, a Dynamic Task Allocation and Scheduling (DTAS) framework, and a distributed Energy-efficient Clustering (EC) algorithm. ITAS provides suitable task allocation solutions which are able to balance energy consumption while also reducing task processing time and end-to-end communication delay in complex multi-processor and multi-hop wireless networks. Automated task reallocation in a dynamic and mobile environment is performed by DTAS. Finally, EC is beneficial in large-scale networks, offering a scalable and easily manageable hierarchical task allocation structure. By combining ITAS, DTAS, and EC, the proposed task allocation system is able to support high performance applications in resource-constrained networks by assigning suitable tasks to the right resources based on user requirements and cost constraints. It provides optimized task allocation solutions for multi-objective task assignment problems (particularly in complex and dynamic multi-hop wireless environments), which is a clear step forward towards realizing resource sharing in the future IoT systems. Key words: Multi-hop wireless network, Task allocation and scheduling, Genetic algorithm, Network dynamicity, Clustering.

Published
2011

35. Surface-Plasmon-Enhanced Transmetalation between Copper and Palladium Nanoparticle Catalyst

Author

Liu, Xin, Shi, Yujian, Jin, Yichao, Tana, Tana, Peiris, Erandi, Zhang, Xueming, Xu, Feng, Waclawik, Eric R., Bottle, Steven E., Zhu, Huaiyong, Sarina, Sarina, Liu, Xin, Shi, Yujian, Jin, Yichao, Tana, Tana, Peiris, Erandi, Zhang, Xueming, Xu, Feng, Waclawik, Eric R., Bottle, Steven E., Zhu, Huaiyong, and Sarina, Sarina

Abstract

Surface-plasmon-mediated phenylacetylide intermediate transfer from the Cu to the Pd surface affords a novel mechanism for transmetalation, enabling wavelength-tunable cross-coupling and homo-coupling reaction pathway control. C−C bond forming Sonogashira coupling and Glaser coupling reactions in O2 atmosphere are efficiently driven by visible light over heterogeneous Cu and Pd nanoparticles as a mixed catalyst without base or other additives. The reaction pathway can be controlled by switching the excitation wavelength. Shorter wavelengths (400–500 nm) give the Glaser homo-coupling diyne, whereas longer wavelength irradiation (500–940 nm) significantly increases the degree of cross-coupling Sonogashira coupling products. The ratio of the activated intermediates of alkyne to the iodobenzene is wavelength dependent and this regulates transmetalation. This wavelength-tunable reaction pathway is a novel way to optimize the product selectivity in important organic syntheses.

Published
2022

36. 3D zebrafish tracking with topology association.

Author

Xu, Yuan, Jin, Yichao, Zhang, Yang, Zhu, Qunxiong, He, Yanlin, and Sheng, Hao

Subjects
*BRACHYDANIO, *DRUG discovery, *TOPOLOGY, *POINT set theory
Abstract

Recently, zebrafish has received more and more attention due to its wide range of applications such as regeneration promoting therapeutics and drug discovery. Therefore, vision‐based trackers are utilized to record the swimming trajectory of zebrafish. In this paper, a re‐association method is introduced in the 3D reconstruction process to generate missed targets caused by occlusion. Since the variation of the overall tracking targets has the property of continuity and stability, a topology association model (TAM) is proposed by point group similarity into the tracking framework. TAM describes the movement of zebrafish from the macroscopic level and utilizes the changes of the point group structure for tracking. Experimental results show that the tracking framework enhances the overall performance and promotes the trajectory integrity. On the latest 3D‐ZeF20 benchmark, state‐of‐the‐art results are achieved. In addition, TAM tracking framework is applied to 2D general tracking to prove that the method is useful and have great advantage in other scenarios with relatively stable amount of targets as well. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

39. 6TiSCH++ With Bluetooth 5 and Concurrent Transmissions

Author

Baddeley, Michael, Aijaz, Adnan, Raza, Usman, Stanoev, Aleksandar, Jin, Yichao, Schuß, Markus, Boano, Carlo Alberto, and Oikonomou, George

Subjects
ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS
Abstract

Targeting dependable communications for industrial Internet of Things applications, IETF 6TiSCH provides mechanisms for efficient scheduling, routing, and forwarding of IPv6 traffic across low-power wireless mesh networks. Yet, despite an overwhelming body of literature covering autonomous, centralized, and distributed scheduling schemes for 6TiSCH, the design of an effective control solution remains an open challenge. Our paper fills this gap with a novel multi-PHY approach that eliminates much of the 6TiSCH routing and link-layer overhead. Specifically, we leverage the physical layer (PHY) switching capabilities of modern single-radio, multi-protocol wireless platforms to build on recent work highlighting the viability of CT-based flooding protocols across the Bluetooth 5 (BT 5) PHYs, demonstrating the feasibility of single-radio devices injecting a BT 5-based CT flood within a standard IEEE 802.15.4 TSCH slotframe. We present experimental evaluation and analytical modeling showing how our solution can exploit BT 5’s high data-rate PHYs for rapid data dissemination, while the coded PHYs can provide reliable 6TiSCH association and synchronization even under external RF interference. We further discuss how the proposed technique can be used to address other open challenges within 6TiSCH.

Published
2021

40. Measurement of cerebrovascular reserve by multimodal imaging for cerebral arterial occlusion or stenosis patients: protocol of a prospective, randomized, controlled clinical trial

Author

xiao zhipeng, ji ke, lin yong, wan jieqing, pan yaohua, jin yichao, and zhang xiaohua

Abstract

Background Cerebrovascular reactivity (CVR), index of cerebral hemodynamics, might guide the treatment of ischemic stroke. However, the previous studies that the therapeutic strategy of stroke mainly depends on the degree of vascular stenosis with steady-state vascular parameters, such as cerebral blood flow, and CVR factors are not under consideration. Measurement of CVR by multimodal image might improve the prognosis for ischemic stroke. Methods/design The study is a prospective, randomized, paralleled controlled clinical trial to examine the multimodal image evaluation for CVR. A total of 66 eligible patients will be recruited from Renji hospital, Shanghai Jiaotong University School of Medicine. The patients will be categorized based on CVR into two subgroups as follows: CVR>10% group and CVR

Published
2019

42. Measurement of cerebrovascular reserve by multimodal image for cerebral arterial occlusion or stenosis patients: study protocol of a randomized paralleled controlled trial

Author

xiao zhipeng, ji ke, lin yong, wan jieqing, pan yaohua, jin yichao, and zhang xiaohua

Abstract

Background Cerebrovascular reactivity (CVR), index of cerebral hemodynamics, might guide the treatment of ischemic stroke. However, the previous studies that the therapeutic strategy of stroke mainly depends on the degree of vascular stenosis with steady-state vascular parameters, such as cerebral blood flow, and CVR factors are not under consideration. Measurement of CVR by multimodal image might improve the prognosis for ischemic stroke. Methods/design The study is a prospective, randomized, paralleled controlled clinical trial to examine the multimodal image evaluation for CVR. A total of 66 eligible patients will be recruited from Renji hospital, Shanghai Jiaotong University School of Medicine. The patients will be categorized based on CVR into two subgroups as follows: CVR>10% group and CVR

Published
2019

43. Ovarian steroid cell tumor, not otherwise specified, treated with surgery: a case report and review of literature

Author

Yuan, Xiong, Sun, Ying, Jin, Yichao, Chen, Xing, Wang, Xiuli, Ji, Tonghui, Wang, Cong, and Dai, Huihua

Subjects
Case Report
Abstract

Ovarian steroid cell tumors NOS are rare sex cord-stromal tumors. They account for less than 0.1% of ovarian tumors. We present a case of a 17-year-old girl with the complaint of amenorrhea. The serum testosterone level was 11.55 nmol/L (reference value, 0.35-2.6 nmol/L) and the serum value of dehydroepiandrosterone-sulfate (DHEA-S) was 5.9 μmol/L (reference value, 0.49-8.71 μmol/L). A computed tomography (CT) pelvic scan identified a solid, right ovarian tumor and detected no adrenal gland enlargement or additional tumors. We took a surgical excision and a wedge resection of the normal contralateral ovary. The histopathologic examination on microscopy confirmed it was a benign ovarian steroid cell tumor NOS. Four days postoperative, her sex hormones were declined to normal levels and her serum testosterone level was 2.37 nmol/L (reference value, 0.35-2.6 nmol/L) a month after surgery. Her serum testosterone level was in the normal range and there was no evidence of recurrence 6 months after surgery.

Published
2019

44. Competition:Adaptive Software Defined Scheduling of Low Power Wireless Networks

Author

Baddeley, Michael, Stanoev, Aleksandar, Raza, Usman, Jin, Yichao, and Sooriyabandara, Mahesh

Subjects
IEEE 802.15.4, SDN, Concurrent Transmissions, Flooding, Low Power Wireless, Mesh Networks, Synchronous Flooding
Abstract

We address the considerable and varied challenges of the EWSN 2019 dependability competition through a software-defined approach to synchronous flooding, whereby a flexible synchronous flooding architecture can instantiate, tailor, and schedule multiple different protocols based on information gathered in an initial configuration phase. In this manner, a single framework can adapt protocol behaviour by building high-level logic on top of lower layer synchronous flooding primitives, in order to meet specific requirements arising from the periodic and aperiodic nature of transmissions from multiple data sources. The adaptability afforded by this approach allows an optimal synchronous flooding protocol solution to be configured and run whatever the application requirements.

Published
2019

50. Methylenetetrahydrofolate reductase gene polymorphism and risk of chronic myelogenous leukemia: a meta-analysis

Author

Chen, Li, Jin, Yichao, Lin, Jiaxin, Zhang, Yueting, Lu, Qin, and Yang, Tonghua

Subjects
Risk, Polymorphism, Genetic, Asian People, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Humans, Genetic Predisposition to Disease, Publication Bias, Methylenetetrahydrofolate Reductase (NADPH2), White People
Abstract

Reported evidence supports a role for methylenetetrahydrofolate reductase (MTHFR) in the risk of chronic myelogenous leykemia (CML). However, these reports arrived at non-conclusive and even conflicting results regarding the association between two common MTHFR polymorphisms (C677T and A1298C) and CML risk. Thus, a meta-analysis was carried out to clarify a more precise association between these two polymorphisms and the CML risk by updating the available publications.Pooled odds ratios (OR) with corresponding 95% confidence interval (95% CI) and stratification analysis were performed to estimate the relationship between MTHFR polymorphisms and the risk of CML under different genetic comparison models.Data from the meta-analysis showed no significant association between MTHFR C677T polymorphism and CML risk. However, significant associations were found between MTHFR A1298C variants and CML risk under homozygous comparison model (CC vs AA, OR=1.62, 95% CI=1.11-2.36, p=0.01) and dominant comparison model (CC+AC vs AA, OR=1.68, 95% CI=1.17-2.43, p=0.005) in overall population; especially more obvious impacts were noticed for Asian populations in subgroup analysis for homozygous model (CC vs AA, OR=2.00, 95% CI=1.25-3.21, p=0.004) and dominant model (CC+AC vs AA, OR=2.49, 95% CI=1.42-4.36, p=0.001), but this did not apply in Caucasian populations.The results of this meta-analysis suggested no significant association between MTHFR C677T polymorphism and CML risk, while an increased CML risk was noticed for 1298C variant carriers, especially in Asian populations but not in Caucasian populations, which suggested ethnicity differences between MTHFR A1298C polymorphisms and risk of CML.

Published
2016

Catalog

Books, media, physical & digital resources
See catalog results