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lssue 12, 2025

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Yunhe Pan, Aiguo Fei

Advisor  Xicheng Lu

ISSN  2095-9184

CN  33-1389/TP

IF (2024 JCR) 2.9

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Volume 26  Issue 12,2025 2025年第26卷第12 Issue

  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    In the field of artificial intelligence, expert Dr. Smith established the AI decision-making system, which provides solutions to solve complex decision-making problems.

    Zhijie CHEN, Heung-Yeung SHUM, Xianbin CAO, Mark HANSEN

    Vol. 26, Issue 12, Pages: 2393-2396(2025) DOI: 10.1631/FITEE.2530000
      
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  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    In the field of urban air mobility, this study introduces a deep reinforcement learning-based solution framework, SPID, which significantly enhances solution efficiency and robustness for siting low-altitude takeoff and landing platforms. Expert xx established the SPID system, which provides solutions to solve vertiport siting problems under flight and capacity constraints.

    Xiaocheng LIU, Meilong LE, Yupu LIU, Minghua HU

    Vol. 26, Issue 12, Pages: 2397-2420(2025) DOI: 10.1631/FITEE.2500534
    Abstract:Siting low-altitude takeoff and landing platforms (vertiports) is a fundamental challenge for developing urban air mobility (UAM). This study formulates this issue as a variant of the capacitated facility location problem, incorporating flight range and service capacity constraints, and proposes SPID, a deep reinforcement learning (DRL)-based solution framework that models the problem as a Markov decision process. To handle dynamic coverage, the designed DRL framework-based SPID uses a multi-head attention mechanism to capture spatiotemporal patterns, followed by integrating dynamic and static information into a unified input state vector. Afterward, a gated recurrent unit (GRU) is used to generate the query vector, thereby enhancing sequential decision-making. The action network within the DRL network is regulated by a loss function that integrates service distance costs with unmet demand penalties, enabling end-to-end optimization. Subsequent experimental results demonstrate that SPID significantly enhances solution efficiency and robustness compared with traditional methods under flight and capacity constraints. Especially, across the social performance metrics emphasized in this study, SPID outperforms the suboptimal solutions produced by traditional clustering and graph neural network (GNN)-based methods by up to approximately 29%. This improvement comes with an increase in distance-based cost that is kept within 10%. Overall, we demonstrate an efficient, scalable approach for vertiport siting, supporting rapid decision-making in large-scale UAM scenarios.  
    Keywords:Low-altitude planning;Vertiport siting;Deep reinforcement learning;Algorithm exploration   
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  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    Reporting on the cutting-edge advancements in urban air mobility, this study introduces its research progress in the field of low-altitude airspace planning. Expert researchers established the Eixão-UAM system, which provides solutions to solve scalable, regulation-aware planning problems and lays a foundation for the construction of future low-altitude airspace systems.

    Li WEIGANG, Juliano Adorno MAIA, Emilia STENZEL, Lucas Ramson SIEFERT

    Vol. 26, Issue 12, Pages: 2421-2439(2025) DOI: 10.1631/FITEE.2500541
    Abstract:The development of urban air mobility (UAM) systems requires scalable, regulation-aware planning of low-altitude airspace and supporting infrastructure. This study proposes an end-to-end framework for the design, simulation, and iterative optimization of a structured UAM corridor over Brasilia’s central road axis (Eixão-UAM), aligned with the Brazilian unmanned aircraft traffic management (BR-UTM) ecosystem. In addition, this study proposes a multilayered aerial configuration stratified by unmanned aerial vehicle class, supported by a modular ground infrastructure composed of vertihubs, vertiports, and vertistops. A takeoff-scheduling simulator is developed to evaluate platform allocation strategies under realistic traffic and weather conditions. Initial experiments compare a round-robin (RR) baseline with a genetic algorithm (GA), and results reveal that RR outperforms GA v1 in terms of the average waiting time. To address this gap, a large language model (LLM) assisted optimization loop is implemented using GPT-4o Mini and Gemini 2.5 Pro. The LLMs act as reasoning partners, supporting the root-cause diagnoses, fitness function redesign, and rapid prototyping of five GA variants. Among these, GA v5 achieves a 59.62% reduction in maximum waiting time and an approximately 10% reduction in average waiting time over GA v1, thereby approaching the robustness of RR. In contrast, GA v2–v4 and GA v6 perform less consistently, showing an importance of fitness function design. These results underscore the role of an iterative, LLM-guided development in enhancing classical optimization, demonstrating that generative artificial intelligence (AI) can contribute to simulation acceleration and the cocreation of operational logic. The proposed method provides a replicable blueprint for integrating LLMs into early-stage UAM planning, offering both theoretical insights and architectural guidance for future low-altitude airspace systems.  
    Keywords:Brasilia;Eixão;Genetic algorithm;Large language model (LLM);Unmanned aerial vehicle (UAV);Urban air mobility (UAM);UAM corridor;Unmanned aircraft traffic management (UTM)   
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  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    In the field of multi-aircraft task allocation, this paper introduces a novel coevolutionary genetic programming framework that automatically designs high-performance reactive heuristics for dynamic MATA problems. Expert established the CoGP system, which provides solutions to solve complex and dynamic rescue environment problems.

    Ce YU, Xianbin CAO, Bo ZHANG, Wenbo DU, Tong GUO

    Vol. 26, Issue 12, Pages: 2440-2454(2025) DOI: 10.1631/FITEE.2500540
    Abstract:Multi-aircraft task allocation (MATA) plays a vital role in improving mission efficiency under dynamic conditions. This paper proposes a novel coevolutionary genetic programming (CoGP) framework that automatically designs high-performance reactive heuristics for dynamic MATA problems. Unlike conventional single-tree genetic programming (GP) methods, CoGP jointly develops two interacting populations, i.e., task prioritizing heuristics and aircraft selection heuristics, to explicitly model the coupling between these two interdependent decision phases. A comprehensive terminal set is constructed to represent the dynamic states of aircraft and tasks, whereas a low-level heuristic template translates developed trees into executable allocation strategies. Extensive experiments on public benchmark instances simulating post-disaster emergency delivery demonstrate that CoGP achieves superior performance compared with state-of-the-art GP and heuristic methods, exhibiting strong adaptability, scalability, and real-time responsiveness in complex and dynamic rescue environments.  
    Keywords:Task allocation;Genetic programming (GP);Hyperheuristic;Combinatorial optimization;Learn-to-optimize   
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  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    In the field of low-altitude target detection, this paper proposes an active low-altitude target detection method based on the cat's eye effect, which provides solutions to address the current limitations in detecting low, slow, and small unmanned aerial vehicles. Expert xx established the detection system, which incorporates a control module, a laser emission component, a co-optical path panoramic scanning optical mechanism structure, an echo reception component, target detection, and visualization processing to achieve small target detection.

    Bin ZHOU, Weiming WANG, Ning YAN, Linlin ZHAO, Chuanzhen LI

    Vol. 26, Issue 12, Pages: 2455-2469(2025) DOI: 10.1631/FITEE.2500522
    Abstract:This paper addresses the urgent need to detect low, slow, and small (LSS) unmanned aerial vehicles (UAVs) in complex and critical environments, proposing an active low-altitude target detection method based on the cat’s eye effect. The detection system incorporates a control module, a laser emission component, a co-optical path panoramic scanning optical mechanism structure, an echo reception component, target detection, and visualization processing to achieve small target detection. The light source is emitted by a near-infrared laser, and the scanning optical path is realized using micro-electro-mechanical system (MEMS) mirrors and servo mechanisms. The echo reception signal is received by an avalanche photodiode (APD) and the target detection module, which captures the reflected signal and distance information. The detection software integrates the local pyramid attention (LPA) module and the field pyramid network (FPN) through the UAV micro lens identification algorithm. It eliminates false alarms by incorporating SKNet21 and uses the APD to collect echo intensity and flight time, thereby reducing the false alarm rate. The results demonstrate the feasibility of the proposed target detection method, which achieves a mean average precision of 0.809 at an intersection over union (IoU) of 0.50, a mean average precision of 0.324 at an IoU of 0.50–0.95, and a throughput of 49.8 Giga floating-point operations per second (GFLOPs), indicating that it can address the current limitations in LSS target detection.  
    Keywords:Low-altitude detection;Optical path detection;Cat’s eye effect;SKNet21;Local pyramid attention;Average precision   
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  • Special Feature on Engineering and Technology for Low-Altitude Economy Infrastructure

    In the field of low-altitude economy, this paper proposes a low-altitude digital-intelligent network (LADIN) system, which provides solutions to solve the problems of deeply integrated communication, sensing, navigation, and control capabilities.

    Jiapeng LI, Qixun ZHANG, Jinglin LI, Dingyou MA, Zhiyong FENG, Tingyu LI, Jiajun HOU

    Vol. 26, Issue 12, Pages: 2470-2486(2025) DOI: 10.1631/FITEE.2500547
    Abstract:The rapid advancement of the low-altitude economy (LAE) necessitates a fundamental shift from fragmented systems toward deeply integrated communication, sensing, navigation, and control capabilities. To this end, this paper proposes a low-altitude digital-intelligent network (LADIN) as an overarching architecture, with integrated sensing and communication (ISAC) serving as the core enabling technology that pervasively unifies its three layers. At the heterogeneous infrastructure layer, we detail an ISAC waveform design based on orthogonal frequency division multiplexing, enabling dual-purpose hardware to simultaneously achieve high-speed data transmission and high-precision environmental sensing. Within the intelligent data fusion layer, ISAC’s role expands into a multimodal fusion paradigm, providing the crucial electromagnetic sensing modality. This layer constructs a unified spatiotemporal feature space by introducing pluggable back-projection adapters and spatiotemporal modeling. These adapters systematically integrate heterogeneous data from ISAC, optical cameras, and light detection and ranging (LiDAR) by inverting their respective observation models, thereby overcoming representational disparities and association ambiguities. At the service and management layer, this coherent representation directly drives algorithmic processes and control policies. ISAC resources are virtualized into dynamically allocable assets, enabling closed-loop control that responds to the real-time state of the feature space, such as reconfiguring base station operational modes based on live situational awareness. Validation through multi-frequency collaborative sensing and multimodal fusion use cases demonstrates significant performance gains in tracking robustness, detection of near-zero radar cross-section targets such as balloons, and seamless urban airspace governance, conclusively establishing the transformative potential of a deeply integrated, ISAC-centric approach for future LAE systems.  
    Keywords:Low-altitude economy;Integrated sensing and communication;Airspace management;Uncrewed aerial vehicles;Cyber-physical system   
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  1. 0 1 Hybrid-augmented intelligence: collaboration and cognition

    Nan-ning ZHENG, Zi-yi LIU, Peng-ju REN, Yong-qiang MA, Shi-tao CHEN, Si-yu YU, Jian-ru XUE, Ba-dong CHEN, Fei-yue WANG 675 | 880 | 52

  2. 0 2 Visual interpretability for deep learning: a survey

    Quan-shi ZHANG, Song-chun ZHU 128 | 136 | 50

  3. 0 3 Crowd intelligence in AI 2.0 era

    LI Wei, Wen-jun WU, Huai-min WANG, Xue-qi CHENG, Hua-jun CHEN, Zhi-hua ZHOU, Rong DING 361 | 286 | 41

  4. 0 4 Applications of artificial intelligence in intelligent manufacturing: a review*

    Bo-hu LI, Bao-cun HOU, Wen-tao YU, Xiao-bing LU, Chun-wei YANG 554 | 378 | 40

  5. 0 5 Challenges and opportunities: from big data to knowledge in AI 2.0

    Yue-ting ZHUANG, Fei WU, Chun CHEN, Yun-he PAN 237 | 547 | 28

  6. 0 6 Current trends in the development of intelligent unmanned autonomous systems

    Tao ZHANG, Qing LI, Chang-shui ZHANG, Hua-wei LIANG, LI Ping, Tian-miao WANG, Shuo LI, Yun-long ZHU, Cheng WU 289 | 323 | 27

  7. 0 7 Recent advances in efficient computation of deep convolutional neural networks

    Jian CHENG, Pei-song WANG, Gang LI, Qing-hao HU, Han-qing LU 310 | 673 | 25

  8. 0 8 Terahertz time-domain spectroscopy and micro-cavity components for probing samples: a review

    Lin CHEN, Deng-gao LIAO, Xu-guang GUO, Jia-yu ZHAO, Yi-ming ZHU, Song-lin ZHUANG 186 | 265 | 24

  9. 0 9 Cross-media analysis and reasoning: advances and directions

    Yu-xin PENG, Wen-wu ZHU, Yao ZHAO, Chang-sheng XU, Qing-ming HUANG, Han-qing LU, Qing-hua ZHENG, Tie-jun HUANG, Wen GAO 403 | 867 | 24

  10. 10 Deep reinforcement learning: a survey

    Hao-nan WANG, Ning LIU, Yi-yun ZHANG, Da-wei FENG, Feng HUANG, Dong-sheng LI, Yi-ming ZHANG 680 | 810 | 24

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