Surrogate Biomedical Data Generation

A special issue of Bioengineering (ISSN 2306-5354). This special issue belongs to the section "Biosignal Processing".

Deadline for manuscript submissions: 28 February 2025 | Viewed by 238

Special Issue Editors


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Guest Editor
Department of Electrical and Electronic Engineering, Imperial College London, London, UK
Interests: biomedical signal processing and machine learning
Special Issues, Collections and Topics in MDPI journals

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Guest Editor
School of Electrical and Electronic Engineering, Singapore Polytechnic, Singapore, Singapore
Interests: surrogate data generation; rehabilitative assessment; signal processing computer vision pattern recognition embedded systems

Special Issue Information

Dear Colleagues,

Recently, there have been tremendous advances in data-driven techniques, mainly based on deep learning (DL) as a powerful tool in artificial intelligence (AI). Computing systems perform tasks such as image recognition and speech transcription, achieving super-human results. Huge amounts of data, principally images including medical images, text, speech and multimodal biomedical data, are needed to train these systems, many of which are based on deep neural networks (DNN). Such data may be stored in the Cloud, allowing for the identification of trends for patient remote monitoring, enabling speedy clinical intervention. Consequently, it makes the estimation of diagnostic parameters more accurate.

Scarcity of patient one-dimensional (i.e., time series) or two-dimensional (i.e., image) data is the major barrier to optimally using the power of machine learning, particularly data-driven and deep learning-based systems for feature estimation, learning, clustering and classification. This consequently affects the use of important diagnostic and patient monitoring information for clinical applications. For example, non-invasive brain analysis through deep learning approaches requires big data analytics and in silico simulation for explaining brain function and the associated pathologies. As another example, to develop more effective planning for human stroke rehabilitation, extensive data for each state of rehabilitative assessment are essential.  

Therefore, the generation of suitable biomedical data which can be combined with real data for identification of patient state is highly desirable. The methods for generation of surrogate (also known as augmented or synthetic) data are different depending on the methods for their assessment and analysis. Each surrogate data generation or augmentation method has different effects depending on the model and dataset too. One is to find a source with similar conditions or parameters and use those data in modeling. Another method is to focus on patterns of the underlying system, and to search for a similar pattern within the related data sources. Some methods attempt to preserve the underlying statistical properties and some others stress on maintaining the shape of some components of data within time, frequency or other domains. These synthetically generated data are used for training the machine learning systems and improving their performance when compared to the cases where only small data sizes are available. Therefore, various adaptive and statistical signal processing or machine learning systems, including deep learning, may be designed for this purpose. On the other hand, to avoid generating undesired surrogates, there are linear and non-linear testing methods and hypotheses. Therefore, this Special Issue is expected to receive the outcome of surrogate biomedical data generation research. The related topics include (but are not limited to):

  • One-dimensional or time series surrogate biodata generation;
  • Two-dimensional or medical image surrogate data generation;
  • Data augmentation for edge systems;
  • Deep learning for surrogate biodata generation;
  • Dynamical systems for surrogate biomedical data generation;
  • Group surrogate biomedical data generation;
  • Multimodal surrogate biodata generation;
  • Quantification of generated data quality;
  • Shape preserving surrogate biodata generation;
  • Surrogate biomedical data testing;
  • Surrogate data for patient assessment.

Prof. Dr. Saeid Sanei
Dr. Tracey KM Lee
Guest Editors

Manuscript Submission Information

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Keywords

  • surrogate
  • augmentation
  • deep learning
  • machine learning
  • biomedical images
  • biomedical signals
  • edge systems
  • testing

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