Mohammad Noori

Mohammad Noori, a recognized researcher in AI techniques for struc¬tural health monitoring, and random vibrations, is an ASME Fellow and professor of mechanical engineering, at California Polytechnic State University. He has also been a distinguished visiting professor at South¬east University, in China and a recipient of Japan Society for Promotion of Science fellowship.

Multi-Scale Reliability and Serviceability Assessment of In-Service Long-Span Bridges

Print Price: 
$49.95
E-book Price: 
$29.95
In Stock Date: 
05/14/2018

Naiwei Lu and Mohammad Noori

With the development in global economic and transportation engineering, the traffic loads on brides have been growing steadily, which become potential safety hazards for existing bridges. In particular, long-span suspension bridges support heavy traffic volumes and simultaneous truck loads on the bridge deck, and thus the safety and serviceability of the bridge deserves investigation. In this book, a multiscale reliability method is presented for the safety assessment of long-span bridges.

Fiber-Optic Sensors For Infrastructure Health Monitoring, Volume I: Introduction and Fundamental Concepts

Print Price: 
$49.95
E-book Price: 
$29.95
In Stock Date: 
10/06/2018

Zhishen Wu, Jian Zhang, and Mohammad Noori

Structural health monitoring (SHM) can be characterized as the integration of sensing and intelligence to enable the potential damage to be monitored, analyzed, localized, and predicted in real time and in a nondestructive manner. Over the past two decades, extensive research has demonstrated that fiber-optic sensors (FOSs) are well suited for SHM sensing requirements in infrastructure systems. In this book, a brief overview of SHM and the application of FOS are presented.

Fiber-Optic Sensors For Infrastructure Health Monitoring, Volume II: Methodology and Case Studies

Print Price: 
$49.95
E-book Price: 
$29.95
In Stock Date: 
12/18/2018

Zhishen Wu, Jian Zhang, and Mohammad Noori

Over the past two decades, extensive research has been conducted on the application of fiber-optic sensors (FOSs) in structural health monitoring (SHM). In Volume 1 of this book a long-gauge sensing technique for incorporating a proposed areawise sensing, developed by the authors, was introduced. High precision and good durability of the long-gauge sensors were also demonstrated via technical improvements that further enable the applications of optical fiber sensors and carbon fiber sensors.