Spatial-temporal episodic memory modeling for ADLs: Encoding, retrieval, and prediction

Spatial-temporal episodic memory modeling for ADLs: Encoding, retrieval, and prediction

Activities of daily living (ADLs) relate to people’s daily self-care activities, which reflect their living habits and lifestyle. A prior study presented a neural network model called STADLART for ADL routine learning. In this paper, we propose a cognitive model named Spatial-Temporal Episodic Memor...

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Bibliographic Details
Main Authors: SONG, Xinjing, WANG, Di, Quek, Chai, TAN, Ah-hwee, Wang, Yanjiang
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2023
Subjects:
Spatial-temporal episodic memory
Encoding and retrieval
ADL retrieval
Subsequent event prediction
Databases and Information Systems
Health Information Technology
Online Access:https://ink.library.smu.edu.sg/sis_research/8472
https://ink.library.smu.edu.sg/context/sis_research/article/9475/viewcontent/Spatial_temporal_episodic_memory_modeling_for_ADLs__encoding__retrieval__and_prediction.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Activities of daily living (ADLs) relate to people’s daily self-care activities, which reflect their living habits and lifestyle. A prior study presented a neural network model called STADLART for ADL routine learning. In this paper, we propose a cognitive model named Spatial-Temporal Episodic Memory for ADL (STEM-ADL), which extends STADLART to encode event sequences in the form of distributed episodic memory patterns. Specifically, STEM-ADL encodes each ADL and its associated contextual information as an event pattern and encodes all events in a day as an episode pattern. By explicitly encoding the temporal characteristics of events as activity gradient patterns, STEM-ADL can be suitably employed for activity prediction tasks. In addition, STEM-ADL can predict both the ADL type and starting time of the subsequent event in one shot. A series of experiments are carried out on two real-world ADL data sets: Orange4Home and OrdonezB, to estimate the efficacy of STEM-ADL. The experimental results indicate that STEM-ADL is remarkably robust in event retrieval using incomplete or noisy retrieval cues. Moreover, STEM-ADL outperforms STADLART and other state-of-the-art models in ADL retrieval and subsequent event prediction tasks. STEM-ADL thus offers a vast potential to be deployed in real-life healthcare applications for ADL monitoring and lifestyle recommendation.

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