【1】刘国洋.Cosine convolutional neural network and its application for seizure detection. NEURAL NETWORKS, 174,2024.

【2】刘国洋 and 田岚.EEG-Based Familiar and Unfamiliar Face Classification Using Filter-Bank Differential Entropy FeaturesIEEE TRANSACTIONS ON HUMAN-MACHINE SYSTEMS,2023.

【3】许会芳 and 田岚.A dynamic transfer network for cross-database atrial fibrillation detectionBiomedical Signal Processing and Control,2023.

【4】田岚.In-vitro quantitative measurement and analysis of the photosensitivity of cells to a weak pulse laser. Biomedical Optics Express, 14:3584,2023.

【5】刘国洋.MartMi-BCI: A Matlab-based Real-Time Motor Imagery Brain-Computer Interface PlatformSOFTWAREX,2023.

【6】田岚.A Mandarin Tone Recognition Algorithm Based on Random Forest and Feature Fusion. MATHEMATICS, 11,2023.

【7】孟强, 刘国洋 and 田岚.An improved vocoder algorithm based on music harmonics and time sampling. Applied Acoustics, 205,2023.

【8】刘朝阳.Musical Instrument Timber-evoked EEG Classification Based on Deep Learning,2022.

【9】刘俊晖.Loss Optimization Based Algorithm for Multi-classification of ECG Signal,2022.

【10】王晓宇 and 田岚.An ECG Signal Denoising Method Using Conditional Generative Adversarial Net. IEEE Journal of Biomedical and Health Informatics, 26:2929,2022.

【11】刘国洋.Patient-Independent Seizure Detection Based on Channel-Perturbation Convolutional Neural Network and Bidirectional Long Short-Term MemoryInternational Journal of Neural Systems,2022.

【12】刘国洋.Multiscale Time-Frequency Method for Multiclass Motor Imagery Brain Computer InterfaceComputers in Biology and Medicine,2022.

【13】刘国洋.ECG quality assessment based on hand-crafted statistics and deep-learned S-transform spectrogram featuresComputer Methods and Programs in Biomedicine,2021.

【14】徐晶晶.A Micron-Sized Laser Photothermal Effect Evaluation System and Method. SENSORS-BASEL, 21,2021.

【15】刘国洋.An Efficient and Accurate Iris Recognition Algorithm Based on a Novel Condensed 2-ch Deep Convolutional Neural NetworkSensors,2021.

【16】王静轩 and 田岚.Effect of shorter pulse duration in cochlear neural activation with an 810-nm near-infrared laserLasers in Medical Science,2017.

【17】田岚 and 王静轩.Short-wavelength infrared laser activates the auditory neurons: comparing the effect of 980 vs. 810 nm wavelengthLasers in Medical Science,2017.

【18】田岚, 陆小珊 and 马发江.Multi-stages decision voice print recognition in telecommunicationMATEC Web of Conferences,2016.

【19】王静轩 and 田岚.Effect of Fiberoptic Collimation Technique on 808 nm Wavelength Laser Stimulation of Cochlear NeuronsPhotomedicine and Laser Surgery,2016.

【20】魏莹 and 田岚.A reconfigurable sound wave decomposition filterbank for hearing aids based on nonlinear transformation. IEEE Transactions on Biomedical Circuits and Systems, 10:487,2016.

【21】王静轩 and 田岚.Pulsed 980 nm short wavelength infrared neural stimulation in cochlea and laser parameter effects on auditory response characteristicsBiomedical Engineering Online,2015.

【22】王静轩 and 田岚.Performance analysis of the beam shaping method on optical auditory neural stimulation in vivoLasers in Medical Science,2015.

【23】田岚.An adaptive spectral subtraction algorithm for speech enhancement in cochlear implant. Acta Acustica, 36:332,2011.

【24】田岚.Improved speech enhancement algorithm based on time-adaptive threshold wavelet packet transform《控制与决策》,2009.

【25】田岚.The tone perception improvement of Putonghua in cochlear implant simulation based on the all phase DFT filter. 《声学学报》, 34:74,2009.