Semi-physical Identification and State Estimation of Energy Intake for Interventions to Manage Gestational Weight Gain

Overview

Journal Proc Am Control Conf

Date 2016 Aug 30

PMID 27570366

Citations 12

Authors

Penghong Guo

Daniel E Rivera

Danielle S Downs

Jennifer S Savage

Affiliations

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Abstract

Excessive gestational weight gain (i.e., weight gain during pregnancy) is a significant public health concern, and has been the recent focus of novel, control systems-based interventions. This paper develops a control-oriented dynamical systems model based on a first-principles energy balance model from the literature, which is evaluated against participant data from a study targeted to obese and overweight pregnant women. The results indicate significant under-reporting of energy intake among the participant population. A series of approaches based on system identification and state estimation are developed in the paper to better understand and characterize the extent of under-reporting; these range from back-calculating energy intake from a closed-form of the energy balance model, to a constrained semi-physical identification approach that estimates the extent of systematic under-reporting in the presence of noise and possibly missing data. Additionally, we describe an adaptive algorithm based on Kalman filtering to estimate energy intake in real-time. The approaches are illustrated with data from both simulated and actual intervention participants.

Citing Articles

Underreporting of Energy Intake Increases over Pregnancy: An Intensive Longitudinal Study of Women with Overweight and Obesity.

McNitt K, Hohman E, Rivera D, Guo P, Pauley A, Gernand A Nutrients. 2022; 14(11).

PMID: 35684126 PMC: 9183022. DOI: 10.3390/nu14112326.

Adaptive, behavioral intervention impact on weight gain, physical activity, energy intake, and motivational determinants: results of a feasibility trial in pregnant women with overweight/obesity.

Downs D, Savage J, Rivera D, Pauley A, Leonard K, Hohman E J Behav Med. 2021; 44(5):605-621.

PMID: 33954853 PMC: 9764232. DOI: 10.1007/s10865-021-00227-9.

Low Resting Energy Expenditure Is Associated with High Gestational Weight Gain Only When Resting Energy Expenditure Fluctuates.

Leonard K, Oravecz Z, Downs D Reprod Sci. 2021; 28(9):2582-2591.

PMID: 33730361 PMC: 10489300. DOI: 10.1007/s43032-021-00544-z.

Short Nighttime Sleep Duration and High Number of Nighttime Awakenings Explain Increases in Gestational Weight Gain and Decreases in Physical Activity but Not Energy Intake among Pregnant Women with Overweight/Obesity.

Pauley A, Hohman E, Leonard K, Guo P, McNitt K, Rivera D Clocks Sleep. 2020; 2(4):487-501.

PMID: 33202691 PMC: 7711788. DOI: 10.3390/clockssleep2040036.

System Identification Approaches For Energy Intake Estimation: Enhancing Interventions For Managing Gestational Weight Gain.

Guo P, Rivera D, Savage J, Hohman E, Pauley A, Leonard K IEEE Trans Control Syst Technol. 2020; 28(1):63-78.

PMID: 31903018 PMC: 6941743. DOI: 10.1109/TCST.2018.2871871.

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