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1. Real-time Deformation-aware Control for Autonomous Robotic Subretinal Injection under iOCT Guidance

Author

Arikan, Demir, Zhang, Peiyao, Sommersperger, Michael, Dehghani, Shervin, Esfandiari, Mojtaba, Taylor, Russel H., Nasseri, M. Ali, Gehlbach, Peter, Navab, Nassir, and Iordachita, Iulian

Subjects
Computer Science - Robotics
Abstract

Robotic platforms provide repeatable and precise tool positioning that significantly enhances retinal microsurgery. Integration of such systems with intraoperative optical coherence tomography (iOCT) enables image-guided robotic interventions, allowing to autonomously perform advanced treatment possibilities, such as injecting therapeutic agents into the subretinal space. Yet, tissue deformations due to tool-tissue interactions are a major challenge in autonomous iOCT-guided robotic subretinal injection, impacting correct needle positioning and, thus, the outcome of the procedure. This paper presents a novel method for autonomous subretinal injection under iOCT guidance that considers tissue deformations during the insertion procedure. This is achieved through real-time segmentation and 3D reconstruction of the surgical scene from densely sampled iOCT B-scans, which we refer to as B5-scans, to monitor the positioning of the instrument regarding a virtual target layer defined at a relative position between the ILM and RPE. Our experiments on ex-vivo porcine eyes demonstrate dynamic adjustment of the insertion depth and overall improved accuracy in needle positioning compared to previous autonomous insertion approaches. Compared to a 35% success rate in subretinal bleb generation with previous approaches, our proposed method reliably and robustly created subretinal blebs in all our experiments.

Published
2024

2. Micromanipulation in Surgery: Autonomous Needle Insertion Inside the Eye for Targeted Drug Delivery

Author

Kim, Ji Woong, Zhang, Peiyao, Gehlbach, Peter, Iordachita, Iulian, and Kobilarov, Marin

Subjects
Computer Science - Robotics
Abstract

We consider a micromanipulation problem in eye surgery, specifically retinal vein cannulation (RVC). RVC involves inserting a microneedle into a retinal vein for the purpose of targeted drug delivery. The procedure requires accurately guiding a needle to a target vein and inserting it while avoiding damage to the surrounding tissues. RVC can be considered similar to the reach or push task studied in robotics manipulation, but with additional constraints related to precision and safety while interacting with soft tissues. Prior works have mainly focused developing robotic hardware and sensors to enhance the surgeons' accuracy, leaving the automation of RVC largely unexplored. In this paper, we present the first autonomous strategy for RVC while relying on a minimal setup: a robotic arm, a needle, and monocular images. Our system exclusively relies on monocular vision to achieve precise navigation, gentle placement on the target vein, and safe insertion without causing tissue damage. Throughout the procedure, we employ machine learning for perception and to identify key surgical events such as needle-vein contact and vein punctures. Detecting these events guides our task and motion planning framework, which generates safe trajectories using model predictive control to complete the procedure. We validate our system through 24 successful autonomous trials on 4 cadaveric pig eyes. We show that our system can navigate to target veins within 22 micrometers of XY accuracy and under 35 seconds, and consistently puncture the target vein without causing tissue damage. Preliminary comparison to a human demonstrates the superior accuracy and reliability of our system., Comment: Experiment-oriented Locomotion and Manipulation Research, RSS 2023 workshop. arXiv admin note: text overlap with arXiv:2306.10133

Published
2023

3. Deep Learning Guided Autonomous Surgery: Guiding Small Needles into Sub-Millimeter Scale Blood Vessels

Author

Kim, Ji Woong, Zhang, Peiyao, Gehlbach, Peter, Iordachita, Iulian, and Kobilarov, Marin

Subjects
Computer Science - Robotics
Abstract

We propose a general strategy for autonomous guidance and insertion of a needle into a retinal blood vessel. The main challenges underpinning this task are the accurate placement of the needle-tip on the target vein and a careful needle insertion maneuver to avoid double-puncturing the vein, while dealing with challenging kinematic constraints and depth-estimation uncertainty. Following how surgeons perform this task purely based on visual feedback, we develop a system which relies solely on \emph{monocular} visual cues by combining data-driven kinematic and contact estimation, visual-servoing, and model-based optimal control. By relying on both known kinematic models, as well as deep-learning based perception modules, the system can localize the surgical needle tip and detect needle-tissue interactions and venipuncture events. The outputs from these perception modules are then combined with a motion planning framework that uses visual-servoing and optimal control to cannulate the target vein, while respecting kinematic constraints that consider the safety of the procedure. We demonstrate that we can reliably and consistently perform needle insertion in the domain of retinal surgery, specifically in performing retinal vein cannulation. Using cadaveric pig eyes, we demonstrate that our system can navigate to target veins within 22$\mu m$ XY accuracy and perform the entire procedure in less than 35 seconds on average, and all 24 trials performed on 4 pig eyes were successful. Preliminary comparison study against a human operator show that our system is consistently more accurate and safer, especially during safety-critical needle-tissue interactions. To the best of the authors' knowledge, this work accomplishes a first demonstration of autonomous retinal vein cannulation at a clinically-relevant setting using animal tissues.

Published
2023

4. Towards Deep Learning Guided Autonomous Eye Surgery Using Microscope and iOCT Images

Author

Kim, Ji Woong, Wei, Shuwen, Zhang, Peiyao, Gehlbach, Peter, Kang, Jin U., Iordachita, Iulian, and Kobilarov, Marin

Subjects
Computer Science - Robotics
Abstract

Recent advancements in retinal surgery have paved the way for a modern operating room equipped with a surgical robot, a microscope, and intraoperative optical coherence tomography (iOCT)- a depth sensor widely used in retinal surgery. Integrating these tools raises the fundamental question of how to effectively combine them to enable surgical autonomy. In this work, we tackle this question by developing a unified framework that facilitates real-time autonomous surgical workflows leveraging these devices. The system features: (1) a novel imaging system that integrates the microscope and iOCT in real-time by dynamically tracking the surgical instrument via a small iOCT scanning region, providing real-time depth feedback; (2) implementation of convolutional neural networks (CNN) that automatically detect and segment task-relevant information for surgical autonomy; (3) intuitive selection of goal waypoints within both the microscope and iOCT views through simple mouse-click interactions; and (4) integration of model predictive control (MPC) for trajectory generation, ensuring patient safety by implementing safety-related kinematic constraints. The system's utility is demonstrated by automating subretinal injection (SI), a challenging procedure with high accuracy and depth perception requirements. We validate our system by conducting 30 successful SI trials on pig eyes, achieving mean needle insertion accuracy of 26 micrometers to various subretinal goals and mean duration of 55 seconds. Preliminary comparisons to a human operator performing SI in robot-assisted mode highlight the enhanced safety of our system. Project website is here: https://sites.google.com/view/eyesurgerymicroscopeoct/home, Comment: pending submission to a journal

Published
2023

8. Ferromagnetism emerged from non-ferromagnetic atomic crystals.

Author

Gong, Cheng, Zhang, Peiyao, Norden, Tenzin, Li, Quanwei, Guo, Zhen, Chaturvedi, Apoorva, Najafi, Arman, Lan, Shoufeng, Liu, Xiaoze, Wang, Yuan, Gong, Shi-Jing, Zeng, Hao, Zhang, Hua, Petrou, Athos, and Zhang, Xiang

Abstract

The recently emerged ferromagnetic two-dimensional (2D) materials provide unique platforms for compact spintronic devices down to the atomic-thin regime; however, the prospect is hindered by the limited number  of ferromagnetic 2D materials discovered with limited choices of magnetic properties. If 2D antiferromagnetism could be converted to 2D ferromagnetism, the range of 2D magnets and their potential applications would be significantly broadened. Here, we discovered emergent ferromagnetism by interfacing non-magnetic WS2 layers with the antiferromagnetic FePS3. The WS2 exhibits an order of magnitude enhanced Zeeman effect with a saturated interfacial exchange field ~38 Tesla. Given the pristine FePS3 is an intralayer antiferromagnet, the prominent interfacial exchange field suggests the formation of ferromagnetic FePS3 at interface. Furthermore, the enhanced Zeeman effect in WS2 is found to exhibit a strong WS2-thickness dependence, highlighting the layer-tailorable interfacial exchange coupling in WS2-FePS3 heterostructures, which is potentially attributed to the thickness-dependent interfacial hybridization.

Published
2023

9. Autonomous Needle Navigation in Retinal Microsurgery: Evaluation in ex vivo Porcine Eyes

Author

Zhang, Peiyao, Kim, Ji Woong, Gehlbach, Peter, Iordachita, Iulian, and Kobilarov, Marin

Subjects
Computer Science - Robotics
Abstract

Important challenges in retinal microsurgery include prolonged operating time, inadequate force feedback, and poor depth perception due to a constrained top-down view of the surgery. The introduction of robot-assisted technology could potentially deal with such challenges and improve the surgeon's performance. Motivated by such challenges, this work develops a strategy for autonomous needle navigation in retinal microsurgery aiming to achieve precise manipulation, reduced end-to-end surgery time, and enhanced safety. This is accomplished through real-time geometry estimation and chance-constrained Model Predictive Control (MPC) resulting in high positional accuracy while keeping scleral forces within a safe level. The robotic system is validated using both open-sky and intact (with lens and partial vitreous removal) ex vivo porcine eyes. The experimental results demonstrate that the generation of safe control trajectories is robust to small motions associated with head drift. The mean navigation time and scleral force for MPC navigation experiments are 7.208 s and 11.97 mN, which can be considered efficient and well within acceptable safe limits. The resulting mean errors along lateral directions of the retina are below 0.06 mm, which is below the typical hand tremor amplitude in retinal microsurgery.

Published
2023
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10. Robotic Navigation Autonomy for Subretinal Injection via Intelligent Real-Time Virtual iOCT Volume Slicing

Author

Dehghani, Shervin, Sommersperger, Michael, Zhang, Peiyao, Martin-Gomez, Alejandro, Busam, Benjamin, Gehlbach, Peter, Navab, Nassir, Nasseri, M. Ali, and Iordachita, Iulian

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

In the last decade, various robotic platforms have been introduced that could support delicate retinal surgeries. Concurrently, to provide semantic understanding of the surgical area, recent advances have enabled microscope-integrated intraoperative Optical Coherent Tomography (iOCT) with high-resolution 3D imaging at near video rate. The combination of robotics and semantic understanding enables task autonomy in robotic retinal surgery, such as for subretinal injection. This procedure requires precise needle insertion for best treatment outcomes. However, merging robotic systems with iOCT introduces new challenges. These include, but are not limited to high demands on data processing rates and dynamic registration of these systems during the procedure. In this work, we propose a framework for autonomous robotic navigation for subretinal injection, based on intelligent real-time processing of iOCT volumes. Our method consists of an instrument pose estimation method, an online registration between the robotic and the iOCT system, and trajectory planning tailored for navigation to an injection target. We also introduce intelligent virtual B-scans, a volume slicing approach for rapid instrument pose estimation, which is enabled by Convolutional Neural Networks (CNNs). Our experiments on ex-vivo porcine eyes demonstrate the precision and repeatability of the method. Finally, we discuss identified challenges in this work and suggest potential solutions to further the development of such systems.

Published
2023
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11. Revit Secondary Development of Excavation Support Design Software for Fabricated Steel Support System of Prestressed Fish-Bellied Beams

Author

Zhang, Peiyao, Ma, Kai, Pang, Sen, Zhou, Ziqing, Zhu, Hongguang, Shehata, Hany Farouk, Editor-in-Chief, ElZahaby, Khalid M., Advisory Editor, Chen, Dar Hao, Advisory Editor, Amer, Mourad, Series Editor, Yuan, Bingxiang, editor, Bilgin, Hüseyin, editor, Luo, Qingzi, editor, Han, Zejun, editor, and Yang, Xueqiang, editor

Published
2024
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13. Research and development of multifunctional cooking test platform combining negative pressure and superheated steam

Author

ZENG Mingjian, ZHAO Yadong, XU Fengying, LIU Tianyi, ZHANG Peiyao, and JIANG Zhuo

Subjects
multifunctional cooking, negative pressure, superheated steam, experimental platform, Food processing and manufacture, TP368-456
Abstract

Objective: To design a multifunctional cooking experimental platform with negative pressure and superheated steam, providing consumers with greener, healthier, and more diverse cooking methods. Methods: The research status of integrated cooking equipment was analyzed, and the application status of superheated steam and negative pressure technology in the food industry was summarized and analyzed. The performance parameters of the multifunctional cooking experimental platform were determined. Based on the characteristics of each function of the experimental platform, the cooking chamber, furnace door and other components were designed, and the overall plan of the experimental platform was developed. Results: The multi-functional cooking experimental platform developed has four functions: negative pressure, steam, microwave, and baking. It can achieve negative pressure extraction of -28 kPa and direct injection of 390 ℃ superheated steam into the cavity. The heating effect of hot air and microwave is good. Conclusion: The multifunctional cooking experimental platform developed has high feasibility and practicality.

Published
2024
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32. Detection of 17β-Estradiol in Foods by a Fluorescence Aptasensor Based on Gold Nanoparticles

Author

WEI Qingyi, LIN Xuanran, ZHANG Peiyao, SUN Da-wen, PU Hongbin

Subjects
carbon quantum dots, gold nanoparticles, 17β-estradiol, aptasensor, milk, Food processing and manufacture, TP368-456
Abstract

A fluorescent aptasensor was constructed for the high-sensitivity and high-selectivity detection of 17β-estradiol (E2) based on the fluorescence quenching effect of gold nanoparticles (AuNPs) on carbon quantum dots (CQDs) and the specific affinity of aptamers to targets. Under the optimal conditions (particle size of AuNPs = 39 nm, AuNPs amount = 200 μL, quenching time = 20 min, and fluorescence recovery time = 60 min), a good linear relationship was observed between the fluorescence recovery degree (y) of the sensor and the logarithmic value (x) of E2 concentration (2 × 10-5–2 × 10-9 mol/L), which was fitted with the following equation: y = 58.50x + 558.95 with a determination coefficient (R2) of 0.992. The detection of limit (LOD) of E2 was 3.4 × 10-10 mol/L. Finally, the aptasensor was successfully applied to the detection of E2 spiked in milk and environmental water samples with good recoveries of 89.67%‒113.36%, suggesting the potential for practical application.

Published
2023
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33. Self-Induced Valley Bosonic Stimulation of Exciton-Polaritons in a Monolayer Semiconductor

Author

Cilibrizzi, Pasquale, Liu, Xiaoze, Zhang, Peiyao, Wang, Chenzhe, Li, Quanwei, Yang, Sui, and Zhang, Xiang

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Condensed Matter - Quantum Gases
Abstract

The newly discovered valley degree of freedom in atomically thin two-dimensional transition metal dichalcogenides (TMD) offers a promising platform to explore rich nonlinear physics, such as spinor Bose-Einstein condensate (BEC) and novel valleytronics applications. However, the critical nonlinear effect, such as valley polariton bosonic stimulation, has long remained an unresolved challenge due to the generation of limited polariton ground state densities necessary to induce the stimulated scattering of polaritons in specific valleys. Here, we report the self-induced valley bosonic stimulation of exciton-polaritons via spin-valley locking in a WS2 monolayer microcavity. This is achieved by the resonant injection of valley polaritons at specific energy and wavevector, which allows spin-polarized polaritons to efficiently populate their ground state and induce a valley-dependent bosonic stimulation. As a result, we observe the nonlinear self-amplification of polariton emission from the valley-dependent ground state. Our finding paves the way for the investigation of spin ordering and phase transitions in TMD polariton BEC, offering a promising route for the realization of polariton spin lattices in moir\'e polariton systems and spin-lasers., Comment: Article + Supplementary Information (tot. 23 pages)

Published
2020
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34. Towards Autonomous Eye Surgery by Combining Deep Imitation Learning with Optimal Control

Author

Kim, Ji Woong, Zhang, Peiyao, Gehlbach, Peter, Iordachita, Iulian, and Kobilarov, Marin

Subjects
Computer Science - Robotics
Abstract

During retinal microsurgery, precise manipulation of the delicate retinal tissue is required for positive surgical outcome. However, accurate manipulation and navigation of surgical tools remain difficult due to a constrained workspace and the top-down view during the surgery, which limits the surgeon's ability to estimate depth. To alleviate such difficulty, we propose to automate the tool-navigation task by learning to predict relative goal position on the retinal surface from the current tool-tip position. Given an estimated target on the retina, we generate an optimal trajectory leading to the predicted goal while imposing safety-related physical constraints aimed to minimize tissue damage. As an extended task, we generate goal predictions to various points across the retina to localize eye geometry and further generate safe trajectories within the estimated confines. Through experiments in both simulation and with several eye phantoms, we demonstrate that our framework can permit navigation to various points on the retina within 0.089mm and 0.118mm in xy error which is less than the human's surgeon mean tremor at the tool-tip of 0.180mm. All safety constraints were fulfilled and the algorithm was robust to previously unseen eyes as well as unseen objects in the scene. Live video demonstration is available here: https://youtu.be/n5j5jCCelXk, Comment: Accepted to Conference on Robot Learning (CoRL) 2020

Published
2020

39. Giant Valley Splitting in Monolayer WS2 by Magnetic Proximity Effect

Author

Norden, Tenzin, Zhao, Chuan, Zhang, Peiyao, Sabirianov, Renat, Petrou, Athos, and Zeng, Hao

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Lifting the valley degeneracy of monolayer transition metal dichalcogenides (TMD) would allow versatile control of the valley degree of freedom. We report a giant valley exciton splitting of 18 meV/T for monolayer WS2, using the proximity effect from a ferromagnetic EuS substrate, which is enhanced by nearly two orders of magnitude from the 0.2 meV/T obtained by an external magnetic field. More interestingly, a sign reversal of the valley exciton splitting is observed as compared to that of WSe2 on EuS. Using first principles calculations, we investigate the complex behavior of exchange interactions between TMDs and EuS, that is qualitatively different from the Zeeman effect. The sign reversal is attributed to competing ferromagnetic (FM) and antiferromagnetic (AFM) exchange interactions for Eu- and S- terminated EuS surface sites. They act differently on the conduction and valence bands of WS2 compared to WSe2. Tuning the sign and magnitude of the valley exciton splitting offers opportunities for versatile control of valley pseudospin for quantum information processing., Comment: 32 pages, 9 figures, 3 tables

Published
2019
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41. Research status and progress of Traditional Chinese Medicine external therapy in prevention and treatment of incontinence-associated dermatitis (中医外治疗法在失禁相关性皮炎中的防治研究现状及进展)

Author

ZHENG Naihua (郑乃花), YANG Dongmei (杨冬梅), E Haiyan (鄂海燕), ZHANG Lijun (张丽君), ZHANG Peiyao (张佩瑶), and WANG Xiaomin (王晓敏)

Subjects
traditional chinese medicine external therapy, incontinence-associated dermatitis, prevention and treatment, traditional chinese medicine, acupoint application, moxibustion, 中医外治疗法, 失禁相关性皮炎, 防治, 中药, 穴位贴敷, 艾灸, Nursing, RT1-120
Abstract

Incontinence-associated dermatitis (IAD) is a local skin inflammation caused by fecal impregnation. By analyzing and summarizing the Traditional Chinese Medicine (TCM) cognition, epidemiology, the concept of TCM external treatment and its application in IAD, this paper aims to broaden the thinking of IAD nursing, provide a basis for the exploration of more TCM external treatment methods applied to IAD, and provide a reference for the construction of systematic TCM external treatment methods applied to the nursing scheme of IAD patients. (失禁相关性皮炎(IAD)是由于大小便浸渍引起的局部皮肤炎症。本文通过对IAD的中医认知、流行病学、中医外治疗法的概念及在IAD中的应用等方面进行分析与归纳, 旨在为IAD的护理拓宽思路, 为更多的中医外治方法应用于IAD的探索提供依据, 为构建系统化的IAD中医外治法护理方案提供参考。)

Published
2022
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47. Time trends in the incidence of interstitial lung disease across Brazil, Russia, India, China and South Africa (BRICS) from 1990 to 2019: An age‐period‐cohort analysis.

Author

Yang, Zhen, Xie, Zhiqin, Wang, Zequan, Du, Yunyu, Chen, Shihan, Wu, Xiuqiang, Zhou, Shengliang, Yi, Linxia, Zhang, Peiyao, Xiang, Tianxin, and He, Chaozhu

Abstract

Background and Objective: The global incidence of interstitial lung disease (ILD) has risen over the past few decades. However, few studies have evaluated the status and incidence trends of ILD in Brazil, Russia, India, China and South Africa (BRICS). This study assesses the trends of ILD incidence across the BRICS with an emphasis on ILD changes from 1990 to 2019. Methods: Incidence rates were estimated by the data obtained from the Global Burden of Disease Study 2019 (GBD 2019). Age‐period‐cohort modelling was used to estimate the effects on ILD from 1990 to 2019, and the net drift and local drift were calculated. Results: In 2019, a total of 11.4 million cases of ILD were reported in the BRICS countries. From 1990 to 2019, the incidence rate of ILD in BRICS showed an upward trend. India consistently reported the highest incidence rate, while China showed the fastest growth rate (107.6%). Russia reported a similar incidence rates for men and women, with a lower age of peak incidence compared to the other four countries. We found the time effect was unfavourable for BRICS in the first decade, especially for Brazil; in China and Brazil, the risk of people born after 1960 has rapidly decreased. Conclusion: ILD shows a rising incidence in BRICS. with the trends varying based on age and other environmental factors. BRICS should strengthen specific public health approaches and policies for different stages and populations. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Is it useful to wash stored red blood cells in cardiopulmonary bypass priming fluid for neonatal cardiac surgery? A single‐centre retrospective study.

Author

Wang, He, Jin, Yu, Gao, Peng, Liu, Jia, Wang, Wenting, Zhang, Peiyao, and Liu, Jinping

Subjects
FIBRIN fibrinogen degradation products, ERYTHROCYTES, CARDIAC surgery, CARDIOPULMONARY bypass, BLOOD coagulation, BLOOD volume, NEONATAL surgery
Abstract

Background and Objectives: Neonatal cardiac surgery requires careful consideration of cardiopulmonary bypass (CPB) priming fluid composition due to small blood volume and immature physiology. This study investigated the impact of allogeneic stored red blood cells (RBCs) processed using an autotransfusion system in CPB priming fluid for neonates. Materials and Methods: We compared perioperative parameters, inflammatory mediators, coagulation indicators, vasoactive‐inotropic score (VIS) and clinical outcomes between neonates receiving unwashed (n = 56) and washed (n = 45) RBCs in CPB priming fluid. Regression models were used to assess the independent association between RBC washing and patient outcomes. Results: The autotransfusion system improved stored RBC quality. The washed group showed higher peak haematocrit (p < 0.01) and haemoglobin levels (p = 0.04) during CPB, an increased oxygen delivery index during rewarming (p < 0.05) and lower postoperative lactate levels and VIS (p < 0.05). Inflammatory (IL‐6, IL‐8 and IL‐10) and coagulation parameters (D‐dimer, fibrinogen and fibrin degradation product) fluctuated compared with baseline but did not significantly differ between groups. The washed group had a lower incidence of hyperlactacidaemia and delayed sternal closure at CPB weaning. Conclusions: Adding washed allogeneic stored RBCs to neonatal CPB priming fluid reduced postoperative lactate elevation and VIS without early improvement in the inflammatory and coagulation systems. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Application of Elman Neural Network Inverse Control in Superheater Water Spray Cooling System

Author

Zhang, Peiyao, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Meng, Hongying, editor, Lei, Tao, editor, Li, Maozhen, editor, Li, Kenli, editor, Xiong, Ning, editor, and Wang, Lipo, editor

Published
2021
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