{"data":[{"_id":1,"description":"Currently, 3-D body scanning is typically being applied to apparel fit and sizing issues. New avenues, include personalized avatar development to facilitate children's physical health.","directors":"Karla Teel","latitude":"32.6021948","location":"372 Spidle Hall","longitude":"-85.4835009","name":"3-D Body Scanning Technology (Imaging Technology)","url":null},{"_id":2,"description":"The Adaptive Aerostructures part of the lab consists of two rooms, AE 217, which is used for design and some testing, and AE 222, which doubles as the Composites Lab since adaptive aerostructures are made primarily from composite materials. AE 222 contains equipment and work space necessary to manufacture small thermoset composite parts and test specimens. A microprocessor-controlled, floor model, Blue-M convection oven with internal dimensions of 48 in x 48 in x 36 in is employed to cure composite parts. Cold storage equipment is available for long-term thermoset prepreg storage. Structural test data is obtained for the manufactured composite specimens by using the servo-hydraulic testing machine and the data acquisition equipment in the Structures Laboratory.","directors":"Gil Crouse","latitude":"32.3182314","location":"222 Davis Hall","longitude":"-86.902298","name":"Adaptive Materials Laboratory","url":"https://cws.auburn.edu/map/?id=6"},{"_id":3,"description":"The facility specializes in the development and application of laser diagnostics for fluid dynamic measurements. Areas of specialization include high-repetition rate flow visualization (up to 1 million frames/sec) and three-dimensional imaging. The centerpiece of the laboratory is a custom-built pulse burst laser system with the ability to produce a burst of high-energy (~10-100 mJ) laser pulses at repetition rates up to 10 MHz. The laser, is an Nd:YAG base laser system and has been used in the past to make high-repetition rate planar flow visualization, particle image velocimetry (PIV) and planar Doppler velocimetry (PDV) measurements in supersonic flow fields.","directors":"Brian Thurow","latitude":"34.1520406","location":"1518 Shelby Center","longitude":"-85.67885310000001","name":"Advanced Laser Diagnostics Laboratory","url":"https://cws.auburn.edu/map/?id=185"},{"_id":4,"description":"This lab includes two subsonic and three supersonic wind tunnels as well as a low-speed smoke tunnel for flow visualization. The principal tunnel used for research is a closed-circuit, single-return, low-speed wind tunnel with a 3 ft by 4.25 ft test section in which the flow speed may be varied from 0 to approximately 140 mph. Different types of mounting hardware and balances are available, including floor mounted with a six degree-of freedom balance and angle of attack control, and sting-mounted with a three degree-of-freedom balance.","directors":"Anwar Ahmed","latitude":"32.3182314","location":"L Building","longitude":"-86.902298","name":"Aerodynamics Laboratory","url":"https://cws.auburn.edu/map/?id=13"},{"_id":5,"description":"The center offers access to SGI UV and SGI Altix Supercomputers and a DMC cluster.","directors":"David Young","latitude":"34.7303688","location":"Huntsville, Alabama","longitude":"-86.5861037","name":"AL Supercomputing Center (ASC)","url":"http://www.asc.edu/supercomputing/"},{"_id":6,"description":"Through the Alabama Agricultural Experiment Station, our research is improving people’s lives while promoting the environmentally and socially responsible advancement of Alabama’s agricultural, forestry and related industries. For more than a century, we have focused our agricultural and scientific research on improving the lives of everyone in our state through the production and availability of healthy food, pure water and a clean environment.","directors":null,"latitude":"32.3182314","location":"107 Comer Hall (Directors Office)","longitude":"-86.902298","name":"Alabama Agricultural Experiment Station (AAES)","url":"https://aaes.auburn.edu/"},{"_id":7,"description":"With offices in each of the state's 67 counties, the Alabama Cooperative Extension System (ACES) spans the state with diverse programs to improve life and well-being in fulfillment of the land-grant mission of Auburn University and Alabama A&M University. County Extension offices offer meeting facilities, videoconferencing capabilities, and a focal point for community interaction. Core values that differentiate Extension in today’s education marketplace are our unique combination of (1) the research-based underpinning of our programs, materials, and educational activities; (2) our ability to establish positive working relationships with clients, communities, partners, and stakeholders; and (3) relevant programming that addresses current societal challenges and opportunities.","directors":"Dr. Gary LemmeDr. Paul Brown","latitude":"32.3182314","location":"109 Duncan Hall","longitude":"-86.902298","name":"Alabama Cooperative Extension System County Offices (statewide)","url":"http://www.aces.edu/directory"},{"_id":8,"description":"This laboratory provides investigators with exposure to hot mix asphalt (HMA) design, aggregate specification testing, assessments of fundamental materials properties, and hands-on experience with state-of-the-art automated field data collection.","directors":null,"latitude":"34.1520406","location":"Harbert Engineering Center","longitude":"-85.67885310000001","name":"Asphalt and Materials Laboratory","url":"https://www.eng.auburn.edu/civil/research/laboratories/asphalt-matl.html"},{"_id":9,"description":"The goal of Project ALIAS is to provide support for Auburn researchers attempting to address complex biology questions using small animal imaging. Bioluminescence, fluorescence and radiologic imaging modalities are available for use in small animals for the purpose of assessing of various disease progression models (e.g. Atherosclerosis, Diabetes, Infectious Disease and Cancer) and evaluating efficacy of indicated or novel therapies to alter disease progression.","directors":"Peter Panizzi","latitude":"32.3182314","location":"Greene Hall","longitude":"-86.902298","name":"Auburn Laboratory for Imaging Animal Systems (Project ALIAS)","url":"http://www.vetmed.auburn.edu/research/alias/"},{"_id":10,"description":"The Auburn Plant Diagnostic Lab services are offered to Alabama citizens and those neighboring Alabama in an effort to safeguard our agriculture, landscapes, and public gardens from plant pests by providing identification services, management advice, and education. The lab is dedicated to minimizing pesticide use by accurately identifying plant pests and providing science-based options for management. The lab is committed to detecting new and invasive pests that pose a risk to Alabama and to the United States so these pests do not impose significant limitations to agricultural production. Specific services offered include plant disease diagnosis, insect identification, nematode analysis, and plant/weed identification.","directors":"Austin Hagan","latitude":"32.5869651","location":"ALFA Building","longitude":"-85.4899652","name":"Auburn Plant Diagnostic Lab","url":"http://www.aces.edu/dept/plantdiagnosticlab/"},{"_id":11,"description":"The Auburn University Early Learning Center is an accredited, laboratory, preschool serving children ages 3, 4 and 5 years old in half day sessions. Children attend from 8:30-11:30 or from 12:30-3:30. Children may attend both morning and afternoon sessions.","directors":"Sharon Wilbanks","latitude":"32.3182314","location":"Early Learning Center","longitude":"-86.902298","name":"Auburn University Early Learning Center","url":"http://humsci.auburn.edu/hdfs/centers/auelc.php"},{"_id":12,"description":"The Auburn University Marriage and Family Therapy Center (AU MFT Center) at Glanton House in the heart of the Auburn University campus provides a variety of clinical services to individuals, couples, and families in the Auburn/Opelika area as well as the rest of East Alabama.","directors":"Thomas Smith","latitude":"32.3182314","location":"Glanton House","longitude":"-86.902298","name":"Auburn University Marriage and Family Therapy Center (Clinical Research)","url":"http://www.mftcenter.auburn.edu"},{"_id":13,"description":"The Auburn University Museum of Natural History contains ~54,000 specimens of flowering plants, gymnosperms and pteridophytes, ~1000 specimens of bryophytes and lichens, and ~2000 specimens of fungi. The Herbarium is the largest in Alabama, being richest in specimens from central portions of the state, and provides assistance in identifying plant specimens, locating specimen information, and answering general questions about native plants from Alabama and the Southeast.","directors":null,"latitude":"32.5987437","location":"Biodiversity Learning Center, 381 Mell St, Auburn University, AL 36849","longitude":"-85.4832541","name":"Auburn University Museum of Natural History","url":"http://aumnh.org/research-collections/"},{"_id":14,"description":"Established in 1990 with funds provided by the Office of Vice President for Research, the Auburn University Research Instrumentation Facility (AURIF) is foremost a research instrumentation and service facility. Its services are available to Auburn faculty, staff, and student researchers; other in-state and out-of-state institutions; and to businesses and private industry. The facility is used extensively for research in the areas of biological sciences, engineering, geological sciences, polymer, fiber and material science, veterinarian medicine, pharmacal sciences, and nanotechology. Complete individual training, familiarization with instrumentation, and assistance with specimen preparation are available upon request. Instrument use, training, and some technical services are provided on a fee-charge basis.","directors":"Dr. Michael Miller","latitude":"32.5991227","location":"37 Rouse Life Sciences Building","longitude":"-85.48249729999999","name":"Auburn University Research Instrumentation Facility (AURIF)","url":"http://www.auburn.edu/academic/pharmacy/research/aurif.html"},{"_id":15,"description":"The Auburn University Soil Testing Laboratory is a cooperative effort of the Alabama Agricultural Experiment Station and the Alabama Cooperative Extension Service.  We provide soil, plant, water, feed, fertilizer materials and other related environmental analysis using ICP, CNS, and other state of the art analytical instruments to anyone who needs our services.  The primary mission of the lab is to provide an unbiased and economical fertilizer and lime recommendation service to Alabama growers.","directors":"Gobena Huluka","latitude":"32.5869651","location":"ALFA Building","longitude":"-85.4899652","name":"Auburn University Soil Testing Laboratory","url":"http://www.aces.edu/anr/soillab/"},{"_id":16,"description":"The function of the C. Beaty Hanna Horticulture and Environmental Center Plant Diagnostic Lab is to identify disease causing pathogens of plants and recommend appropriate treatments for their control. The ultimate goal of the diagnostic lab is to reduce the misuse and the overuse of pesticides in our landscape settings. Accurate disease diagnosis is the first step in reaching this goal. Diagnostic techniques include visual as well as microscopic examination, culture isolation, serology, bioassays, and other biotic tests.","directors":"James Jacobi","latitude":"33.4900154","location":"C. Beaty Hanna Horticulture and Environmental Center 2612 Lane Park Road Birmingham, AL 35223","longitude":"-86.7752196","name":"C. Beaty Hanna Horticulture and Environmental Center Plant Diagnostic Lab","url":"http://www.aces.edu/HannaCenter/diagnostics.php"},{"_id":17,"description":"The Center is located in Downtown Birmingham on the full third floor of the historic Young and Van Building. There is basic computing input and output equipment. There are areas for medium sized group meetings. Primarily the Urban Studio has a studio space to support the ongoing commitment to teaching, intern partnerships with local architects, research, outreach and studio work focused in the city of Birmingham. In addition, the Small Town Design Initiative Program has worked with over 65 small towns and communities across the state.","directors":"Professor Cheryl Morgan","latitude":"33.512696","location":"Center for Architecture and Urban Studies 1731 First Avenue North Birmingham, AL 35203","longitude":"-86.8086146","name":"Center for Architecture and Urban Studies","url":"https://cadc.auburn.edu/architecture/architecture-degrees-programs/program-of-architecture/urban-studio/"},{"_id":18,"description":"Polymer and fiber research laboratories include composites, polymer processing including injection molding, fiber extrusion, nonwovens and other engineered fibrous structures, polymers, analytical testing, coloration and finishing. The laboratories are used for student labs and are available for contract testing and joint research projects.","directors":"Maria Auad","latitude":"32.3182314","location":"212 Ross Hall","longitude":"-86.902298","name":"Center For Polymer and Advanced Composites","url":"http://eng.auburn.edu/research/centers/polymer-and-fiber/"},{"_id":19,"description":"The Auburn Compact Toroidal Hybrid (CTH) is a fusion plasma confinement device designed to study current-carrying plasmas confined in non-axisymmetric magnetic fields.","directors":"Jim Hanson","latitude":"34.1520406","location":"Leach Science Center","longitude":"-85.67885310000001","name":"Compact Toroidal Hybrid","url":"http://www.auburn.edu/academic/cosam/departments/physics/research/fusion/more-fusion-research.htm"},{"_id":20,"description":"The Auburn concrete laboratory is located in the basement of the Harbert Engineering Center. The concrete laboratory forms a key component of the concrete research at Auburn. The laboratory allows faculty, staff, and students test to assess the various fresh and hardened concrete properties that may affect the performance of concrete members.","directors":"Billy Wilson","latitude":"34.1520406","location":"Harbert Engineering Center","longitude":"-85.67885310000001","name":"Concrete Materials Laboratory","url":"http://eng.auburn.edu/civil/research/laboratories/concrete.html"},{"_id":21,"description":"a) LC/MS, Peptide  microsequencing and protein identification, shotgun proteomics (1D-SDS/rUPLC), Small molecule molecular weight and structure analysis, macromolecule molecular weight (protein PTM, carbohydrate, lipids, polymer) and modification analysis, composition and purity assessment of biological/chemical small molecules and proteins,","directors":"Yonnie Wu","latitude":"32.3182314","location":"172 Chemistry Building","longitude":"-86.902298","name":"COSAM Mass Spectrometry Center","url":"http://www.auburn.edu/cosam/departments/chemistry/facilities/massspec.htm"},{"_id":22,"description":"Molecular structure analysis and elucidation using: a) 500 MHz NMR with Broadband auto-tuning liquid nitrogen cooled cryoprobe. b) 600 MHz NMR with auto-tuning liquid helium cooled triple resonance cryogenic probe.","directors":"Alvaro Herrera","latitude":"32.3182314","location":"116 and 121 Chemistry Building","longitude":"-86.902298","name":"COSAM NMR Center","url":"http://www.auburn.edu/academic/cosam/departments/chemistry/facilities/"},{"_id":23,"description":"Environmental Engineering Laboratories are located at Aerospace 110 and 111, Harbert 004b, Ramsay 112, Wilmore 118, Advanced Engineering Research lab 3558 and 3568. Current environmental analysis equipment include Perkin Elmer 3110 Graphite Furnace AA , Varian 220FS Flame AA , Dionex DX-120 Ion Chromatograph, Hewlett Packard 1100 HPLC, Hewlett Packard 8453, Phoenix 8000 TOC Analyzer, Varian 710ES ICP-OES, Hewlett 6890 GC, Agilent 6890 GC , Agilent 7000 Triple Quad GC/MS, Agilent 5975C inert XL GC/MS. Research areas of interest focus on cleaning, monitoring and protecting the environment.","directors":"Jinling Zhuang","latitude":"32.3182314","location":"110-111 Aerospace 112 Ramsay 004B Harbert 118 Wilmore 3558-3568 AERL","longitude":"-86.902298","name":"Environmental Engineering Laboratories","url":"http://eng.auburn.edu/civil/research/laboratories/environmental.html"},{"_id":24,"description":"The Flow Cytometry Facility at Auburn University provides operator managed and assisted support for Flow cytometry analyses and high - speed cell sorting. The facility has both analytical and cell sorting instrumentation available including a Cytomation MoFlo XDP High - Speed Cell Sorter and an ACCURI C6 Analyzer. The laboratory offers up to 7 - color 9 – parameter analysis with both 488 nm and 635 nm lasers. The MoFlo XDP is also equipped with a Cyclone robotic arm providing sterile single cell sorting into microtiter plates. Also available are post - acquisition analysis software packages that provide listmode playback of all experiments in real - time with full analytical adjustment, cell cycle analysis, histogram subtraction and/or overlays of multiple histograms, and color - backgating of discrete cell populations. Precise cell counts per microliter on 50+ microliter - sized samples are also available. Secure long term data storage on hard drive, CD, and the local network are also provided. Data analysis using Summit, CFlow Plus, FCS Express, and MultiCycle flow cytometry software is also provided.","directors":"R. Curtis Bird, Ph.D.","latitude":"32.3182314","location":"166 Greene Hall","longitude":"-86.902298","name":"Flow Cytometry Laboratory","url":"http://www.vetmed.auburn.edu/research/flow-cytometry-laboratory/"},{"_id":25,"description":"It has been often said that \"a picture is worth a thousand words.\" The Flow Visualization Lab is the realization of this axiom in regard to fluid flow. Air is a \"watery fluid\" and the flow of water, which is more easily visualized than the flow of air, maybe used to learn a great deal about the basic mechanisms involved in both media. The principal equipment in this lab is a 45 cm x 45 cm test section water tunnel. The water tunnel has a maximum speed of 1.2 meters per second and is equipped latest instrumentation for visualization and flow measurements. This includes planar and stereoscopic particle image velocimeter, hot film anemometer, high speed imager, pulsed and continuous wavefront lasers for laser induced fluorescence, and a multiple color dye injection system.","directors":"Anwar Ahmed","latitude":"32.3182314","location":"121 Davis Hall","longitude":"-86.902298","name":"Flow Visualization Laboratory","url":"https://cws.auburn.edu/map/?id=6"},{"_id":26,"description":"Established in 2000 with the acquisition of our first ABI 3100 DNA Genetic Analyzer, the Genomics & Sequencing Laboratory (GSL) provides a number of nucleic acid analysis services including DNA sequencing, DNA array analysis, and quantitative PCR. These services were established to aid researchers performing studies in a multitude of disciplines including genetics, molecular biology, and systematics to name just a few. All of our services are available to researchers both on and off the Auburn University campus. The facility offers access to a a state-of-the-art HiSeq 1500 from Illumina for next- generation DNA sequencing. This complements the 2 ABI 3100 and 1 ABI 3130 instruments used for Sanger sequencing, fragment analysis and SNP analysis.","directors":"Lee Zhang","latitude":"32.3182314","location":"151 ALFA Building","longitude":"-86.902298","name":"Genomics & Sequencing Laboratory","url":"http://www.ag.auburn.edu/enpl/gsl/"},{"_id":27,"description":"The Auburn University Department of Civil Engineering has two geotechnical engineering laboratories with approximately 5,000 square feet of floor space. The laboratories are equipped with standard soils testing equipment for soil classification, compaction, and shear strength. A 15-foot high, 10-foot diameter, upward gradient liquefaction tank is available. Geotechnical Laboratories include an undergraduate laboratory with equipment to run routine soil tests such as classification, compaction, CBR, unconfined compression, permeability, and dispersion, and a graduate laboratory with equipment to run advanced and detailed tests such as triaxial and direct shear, and consolidation. In-situ equipment includes a standard penetration test, Iowa borehole shear test, and dynamic cone. The laboratory has a power auger for earth-drilling.","directors":"Jeremy Anderson","latitude":"34.1520406","location":"Harbert Engineering Center","longitude":"-85.67885310000001","name":"Geotechnical Engineering Laboratories","url":"http://eng.auburn.edu/civil/research/laboratories/geotechnical.html"},{"_id":28,"description":"The Harris Early Learning Center is a state-of-the-art preschool facility for over 200 children ranging in age from six weeks to five years of age. It is the product of a unique public-private partnership including city government, higher education, and various corporations in the downtown Birmingham area.","directors":"Robbie Roberts","latitude":"33.5162727","location":"Elmer & Glenda Harris Early Learning Center 1413 7th Avenue North Birmingham, AL 35203","longitude":"-86.8174202","name":"Harris Early Learning Center of Birmingham","url":"http://www.harriselc.org"},{"_id":29,"description":"The Hunger Solutions Institute (HSI) serves as convener, collaborator, and multiplier to create academic and multi-sector partnerships, conduct and share research and best practices, and further innovation and entrepreneurial endeavors in the battle to end hunger.","directors":"Dean June Henton","latitude":"32.6021948","location":"210 Spidle Hall","longitude":"-85.4835009","name":"Hunger Solutions Institute","url":"http://wp.auburn.edu/hsi/"},{"_id":30,"description":"The Interdisciplinary Center for Advanced Manufacturing Systems (ICAMS) at Auburn University is an important resource for small and medium manufacturers throughout the southeastern United States. Established in 2018, ICAMS offers the equipment, space and expertise to train and educate students and industry personnel in advanced manufacturing technologies. ICAMS’ efforts focus on reducing the barriers inhibiting the introduction of advanced manufacturing systems (e.g, the implementation of Industry 4.0 technologies) in small and medium manufacturing operations.","directors":null,"latitude":"32.6060336","location":"345 W. Magnolia Ave.","longitude":"-85.4874778","name":"Interdisciplinary Center for Advanced Manufacturing Systems (ICAMS)","url":"https://eng.auburn.edu/icams/"},{"_id":31,"description":"The center offers access to a 2 MV tandem particle accelerator equipped with an rf charge exchange ion source and a dedicated SNICS (source of negative ions from cesium sputtering) heavy ion source. The rf source produces He ion beams and the SNICS source produces a broad range of heavy ion beams. Uses include fast neutron activation analysis, neutron time of flight spectrometry, Rutherford backscattering spectrometry, light ion channeling, proton-induced X-ray emission, nuclear reaction analysis, and heavy ion implantation.","directors":"Jim Hanson","latitude":"34.1520406","location":"Leach Science Center","longitude":"-85.67885310000001","name":"Leach Nuclear Science Center","url":"https://cws.auburn.edu/map/?id=61"},{"_id":32,"description":"Siemens 3T and 7T MRI Scanners and affiliated equipment.","directors":"Tom Denny","latitude":"34.7484113","location":"Research Park","longitude":"-86.6703951","name":"Magnetic Resonance Imaging Center (MRI)","url":"http://www.eng.auburn.edu/research/centers/mri/"},{"_id":33,"description":"A variety of materials testing equipment including electron microscopes, optical microscopes, mechanical testing unit, chemical analyses.","directors":"Barton Prorok","latitude":"32.6056367","location":"Wilmore Laboratories","longitude":"-85.4844435","name":"Materials Research and Education Program","url":"http://www.eng.auburn.edu/research/centers/mrec/index.html"},{"_id":34,"description":"Mechanical Engineering investigators have access to state-of-the art experimental and computational facilities. Details, including contact information, can be found through the designated webpage.","directors":null,"latitude":"32.3182314","location":"Various","longitude":"-86.902298","name":"Mechanical Engineering Laboratories","url":"http://www.eng.auburn.edu/programs/mech/research/labs.html"},{"_id":35,"description":"The Media and Digital Resource Laboratory (MDRL) at RBD Library was established in 2004 to help Auburn University students and faculty create and use multimedia materials in their class assignments, projects and scholarly research. The MDRL currently has over 40 high-end Windows and Macintosh workstations, facilities for audio and video editing, large-format scanners and printers, and four full-time staff members, each of whom brings a unique range of skills. The staff is supported by student employees from many different academic areas who work one-on-one with patrons to help make their ideas a reality. The staff and students in the MDRL are committed to serving the multimedia technology needs of Auburn University students and faculty in all academic disciplines.","directors":"Christopher Mixon","latitude":"32.6031135","location":"1st floor RBD Library","longitude":"-85.4826745","name":"Media & Digital Resource Laboratory (MDRL)","url":"http://www.lib.auburn.edu/mdrl/"},{"_id":36,"description":"Assortment of test facilities for asphalt pavement. 1.72 mile test track and trucking facility.","directors":"Randy West","latitude":"32.3182314","location":"NCAT Research Facility and Test Track","longitude":"-86.902298","name":"National Center for Asphalt Technology (NCAT)","url":"http://eng.auburn.edu/research/centers/ncat/"},{"_id":37,"description":"The Center for Advanced Vehicle and Extreme Environment Electronics (CAVE3) at Auburn University is dedicated to working with industry in developing and implementing new technologies for the packaging and manufacturing of electronics with special emphasis on the cost, harsh environment and reliability requirements of the vehicle industry. Center personnel work directly with the member companies to identify challenges and opportunities for new materials, processes and approaches to the production of electronics. The member companies select the research projects. Semi-annual project reviews, visits, monthly updates and frequent phone calls maintain a close interaction between the industrial members and Center researchers. CAVE3 currently has 30 members teamed up with Auburn representing material, component, equipment and electronics assembly companies.","directors":"Pradeep Lall","latitude":"32.6053836","location":"1418 Wiggins Hall","longitude":"-85.488027","name":"NSF CAVE3 Research Center","url":"http://cave.auburn.edu/"},{"_id":38,"description":"The RESF provides high quality electronic instrument design and technical support services. RESF services are available to support research as well as teaching instrumentation and electronics equipment campus-wide. Please contact us or submit a service request form (link) by email or hard copy to Jeff Estep. We look forward to fulfulling your electronic support needs!","directors":"Jeffery Estep","latitude":"32.6049237","location":"252 Broun Hall","longitude":"-85.48671329999999","name":"Research Electronics Support Facility","url":"http://www.auburn.edu/academic/cosam/departments/chemistry/facilities/resf.htm"},{"_id":39,"description":"The RFID Lab at Auburn University is a research institute focusing on the business case and technical implementation of RFID and other emerging technologies in retail, supply chain, and manufacturing. The RFID Lab is a unique private/academic partnership between major manufacturers and retailers, technology vendors, standards organizations, and cutting edge faculty and researchers from the Harbert College of Business, Samuel Ginn College of Engineering, College of Human Sciences, College of Agriculture, and researchers from other universities including the University of Arkansas.","directors":"Justin PattonSenthilkumar CP","latitude":"32.607672","location":"1530 East Glenn Avenue","longitude":"-85.44897","name":"RFID Laboratory","url":"https://rfid.auburn.edu/"},{"_id":40,"description":"Industrial Design at Auburn University was established in the Department of Art in 1945, making it one of the oldest programs in the country. In Fall 2007, the Graphic Design Program was incorporated into the Department of Industrial Design. The School of Industrial and Graphic Design is part of the College of Architecture, Design and Construction and is housed in the Wallace Hall located at the corner of Thach and Donahue streets.","directors":"Clark Lundell","latitude":"32.6098566","location":"http://auburn.edu/map/?id=93","longitude":"-85.48078249999999","name":"School of Industrial & Graphic Design Fabrication Laboratory","url":"https://www.youtube.com/watch?v=kz-5aRQX7MQ"},{"_id":41,"description":"The primary Structural Research Laboratory occupies 4850 sf of floor space in the Harbert Engineering Center, and has a usable height of 30 ft. The laboratory features a 30 ft x 60 ft reaction floor and a complete servo-controlled MTS closed-loop testing system. There are presently two large structural test frames available. A wide array of hydraulic pumps and actuators are on hand for use. Several Megadac and one Campbell CR9000 data acquisition systems are used in concert with numerous load-, displacement-, and strain-monitoring transducers. The laboratory is equipped with a loading dock and an overhead crane. Housed adjacent to the laboratory are graduate student offices, instrumentation preparation areas, equipment storage, a machine shop, and a carpentry shop. The Structural Dynamics Laboratory is located next to the Structural Research Laboratory. This 2180-sf facility is particularly well suited for the dynamic testing of high-tension electrical power cables. This laboratory features integral cable anchorages at each end and an overhead crane.","directors":"Billy Wilson","latitude":"34.1520406","location":"Harbert Engineering Center","longitude":"-85.67885310000001","name":"Structural Engineering Laboratories","url":"http://eng.auburn.edu/civil/research/laboratories/structural.html"},{"_id":42,"description":"The fabrication shop is used to support the research, creative work and curricula in the Department of Industrial and Graphic Design. The shop is approximately 15,000 square feet. The shop has wood, plastics and metal fabrication equipment -- including both conventional equipment and rapid prototyping and computer driven equipment.","directors":"Professor Clark Lundell","latitude":"34.1520406","location":"Wallace Center","longitude":"-85.67885310000001","name":"The McWhorter School of Building Science Field Lab","url":"https://cadc.auburn.edu/construction/about-construction/construction-facilities/"},{"_id":43,"description":"The facility offers access to a Bruker APEX single crystal X-ray diffractometer and a Rigaku powder X-ray diffractometer.","directors":"Rik Blumenthal","latitude":"32.3182314","location":"166 Chemistry Building","longitude":"-86.902298","name":"X-Ray Diffraction Facility","url":"http://www.auburn.edu/academic/cosam/departments/chemistry/facilities/"}],"error":null}