A framework to aid facility managers when choosing between standard drywall construction and a movable wall system

Dove, Larry Joe, II

08 1900

No description available.

Facility management

Decision support systems

Interior walls

Recommended changes for knee wall insulation practices to increase energy efficiency

Sprague, Jill

January 2005

This paper explains typical knee wall construction and insulation in homes in Indiana and demonstrates the energy inefficiencies caused by such methods. Literature research gives examples of possible opportunities for changing the standard methods of knee wall construction and insulation. The methodology of the study is explained, as is energy intensity (EI) — the main evaluation tool used in this paper. EI allows a researcher to compare homes of different sizes in different locations. Overall, the study shows that homes whose knee walls have an air barrier backing use less energy than homes without knee walls. Additionally, as expected, homes with improperly constructed knee walls use the most energy. Finally, the paper contains recommendations about what methods might be used to change the standard practices involved in building and insulating knee walls. / Department of Urban Planning

Attics -- Energy consumption.

Interior walls -- Energy consumption.

Dwellings -- Insulation.

Sensing Building Structure Using UWB Radios for Disaster Recovery

Lee, Jeong Eun

30 May 2018

This thesis studies the problem of estimating the interior structure of a collapsed building using embedded Ultra-Wideband (UWB) radios as sensors. The two major sensing problems needed to build the mapping system are determining wall type and wall orientation. We develop sensing algorithms that determine (1) load-bearing wall composition, thickness, and location and (2) wall position within the indoor cavity. We use extensive experimentation and measurement to develop those algorithms. In order to identify wall types and locations, our research approach uses Received Signal Strength (RSS) measurement between pairs of UWB radios. We create an extensive database of UWB signal propagation data through various wall types and thicknesses. Once the database is built, fingerprinting algorithms are developed which determine the best match between measurement data and database information. For wall mapping, we use measurement of Time of Arrival (ToA) and Angle of Arrival (AoA) between pairs of radios in the same cavity. Using this data and a novel algorithm, we demonstrate how to determine wall material type, thickness, location, and the topology of the wall. Our research methodology utilizes experimental measurements to create the database of signal propagation through different wall materials. The work also performs measurements to determine wall position in simulated scenarios. We ran the developed algorithms over the measurement data and characterized the error behavior of the solutions. The experimental test bed uses Time Domain UWB radios with a center frequency of 4.7 GHz and bandwidth of over 3.2 GHz. The software was provided by Time Domain as well, including Performance Analysis Tool, Ranging application, and AoA application. For wall type identification, we use the P200 radio. And for wall mapping, we built a special UWB radio with both angle and distance measurement capability using one P200 radio and one P210 radio. In our experimental design for wall identification, we varied wall type and distance between the radios, while fixing the number of radios, transmit power and the number of antennas per radio. For wall mapping, we varied the locations of reference node sensors and receiver sensors on adjoining and opposite walls, while fixing cavity size, transmit power, and the number of antennas per radio. As we present in following chapters, our algorithms have very small estimation errors and can precisely identify wall types and wall positions.

Three-dimensional modeling

Ultra-wideband devices

Interior walls

Signal processing -- Digital techniques

Computer Sciences

Demonstration Video 04: Creating Interior Walls

Johnson, Keith, Uddin, Mohammad Moin

01 January 2022

https://dc.etsu.edu/entc-2160-oer/1014/thumbnail.jpg

OER

ENTC 2160

architectural CAD

interior walls

Architectural Engineering

Civil and Environmental Engineering

Electrical and Computer Engineering

Engineering Education