Evaluating Training Approaches for the Revised NIOSH Lifting Equation

Bowles, William, Jr.

19 April 2012

No description available.

Educational Software

lifting

lifting equation

back injury

A REAPPRAISAL OF NIOSH LIFTING EQUATION: A WORKER-BASED ASSESSMENT

JIANG, ZHENLEI

January 2001

No description available.

Engineering, Industrial

reappraisal of NIOSH lifting equation

worker-based assessment

lifting task

effort

A general lifting equation based on total mechanical work

SONBOL, AMR M.

07 July 2004

No description available.

general lifting equation

recommended weight limit

manual lifting

total mechanical work

energy expenditure

Konceptutveckling av transportlösning för kaffeutrustning till event / Concept development of a transport solution for coffee equipment to events

Alfredsson, Svante

January 2016

This thesis is done during the spring semester 2016 for the Bachelor of Science in Innovation and Design programme at Karlstad University. The mission of the thesis was provided by the company 3TEMP AB in Arvika. In order to serve large quantities of coffee at big events, festivals and fairs a powerful coffee machine is required. Due to its size the machine is difficult handle during transport. This project is about finding a solution that makes the transport of the coffee machine and its related equipment safer and easier to handle during transportation between events. The goal of the project was to find a possible solution that makes the transportation of the equipment more efficient and ergonomic. In order to find as many ideas as possible the design process has been used. This includes a research followed by an ideation, concept development and concept evaluation. The project ended with one concept presented in the form of a layout design in CAD together with assembly drawings, sketches and a model. In this project interviews and observations has been done together with the people who transport coffee equipment on a daily basis. The results of the observations were later compared with the recommended lifting weight for manual lifting tasks using NOISH lifting equation. In the event business different types of vehicles are used to transport equipment at the event areas. Everything from ATVs and snowmobiles to tractors and caterpillar vehicles are used. In the project there has been a search for a common denominator between those vehicles. During the project benchmarking of similar products has also been done to find inspiration for new ideas. To further evaluate the concepts an examination of laws and regulations for transportation of equipment in traffic and off-road has been done. The equipment also has to withstand long distance transport by rail, road, sea and air. To meet these requirements interviews were made with the company MariTerm AB who works with educating in cargo securing of goods for worldwide shipment. / Detta examensarbete är utfört under vårterminen 2016 för högskoleingenjörsprogrammet i innovationsteknik och design på Karlstad universitet. Uppdraget tillhandahölls av företaget 3TEMP AB i Arvika. För att kunna servera stora mängder kaffe på stora event, festivaler och mässor krävs kraftfulla kaffemaskiner som är svåra att transportera. Det här projektet handlar om att ta fram ett förslag på en lösning som gör transporten av kaffemaskinen med tillhörande utrustning lättare och mindre påfrestande för brukaren i samband med förflyttning mellan olika event. Målet med projektet har varit att föreslå en lösning på hur transport av kaffemaskin och kringutrustning kan ske effektivt och ergonomiskt. För att hitta så många möjliga lösningar som möjligt användes designprocessen. Detta inkluderade en förstudie, idegenerering, konceptutveckling och konceptutvärdering. Resultatet av arbetet slutade med ett koncept som presenteras i from av en layoutkonstruktion i CAD med tillhörande sammanställningsritningar, skisser och en modell. I det här projektet intervjuaedes och observerades brukaren vid det befintliga arbetet. Resultatet av observationerna jämfördes sedan med den rekommenderade lyftvikten för manuella lyftarbeten genom att använda NOISH lyftekvation. Vid event används olika typer av hjälpmedel för att förflytta olika typer av utrustningen på eventområdena. Det används allt från fyrhjulingar och snöskotrar till traktorer och larvfordon. I projektet söktes en gemensam nämnare mellan dessa fordon. I projektet genomfördes även benchmarking på liknande produkter samt en undersökning av vilka lagar och regler som finns i samband med transport på landsväg och i terräng. Utrustningen skall gå att transportera längre sträckor på räls, landsväg, båt eller flyg. För att lösningen skall uppfylla dessa krav har intervjuer gjorts med Mariterm AB som arbetar med utbildning av lastsäkring av olika gods för transport över hela världen.

event

ergonomics

noish lifting equation

lifting tasks

coffee

coffee equipment

transport

coffee machine

event

evenemang

ergonomi

kaffe

kaffeutrustning

kaffemaskin

transport

lyftarbeten

noish lyftekvation

mobil

Automating a labour performance measurement and risk assessment: an evaluation of methods for a computer vision based system

Van Blommestein, Donald Lloyd

04 1900

Thesis (MScEng) Stellenbosch University, 2014 / ENGLISH ABSTRACT: This thesis brings together productivity and risk assessments through innovative design, development and evaluation of a unique system for retrieving and analysing data. In the past, although the link between them is well-documented, these assessments have largely been dealt with as separate antagonist entities. A broad evaluation of the existing traditional and technological support systems has been conducted to identify suitable methodologies along with a common technological platform for automation. The methodologies selected for the productivity and risk assessments were; work sampling and the revised NIOSH lifting equation respectively. The automation of these procedures is facilitated through computer vision and the use of a range imaging Kinect™ camera. The standalone C++ application integrates two tracking approaches to extract real-time positional data on the worker and the work-piece. The OpenNI and OpenCV libraries are used to perform skeletal tracking and image recognition respectively. The skeletal tracker returns positional data on specific joints of the worker, while the image recognition component, a SURF implementation, is used to identify and track a specific work-piece within the capture frame. These tracking techniques are computationally expensive. In order to enable real time execution of the program, Nvidia’s CUDA toolkit and threading building blocks have been applied to reduce the processing time. The performance measurement system is a continuous sampling derivative of work sampling. The speed of the worker’s hand movements and proximity to the work-piece are used to classify the worker in one of four possible states; busy, static, idle, or out of frame. In addition to the worker based performance measures, data relating to work-pieces are also calculated. These include the number of work-pieces processed by a specific worker, along with the average and variations in the processing times. The risk assessment is an automated approach of the revised NIOSH lifting equation. The system calculates when a worker makes and/or breaks contact with the work-piece and uses the joint locations from the skeletal tracker to calculate the variables used in the determination of the multipliers and ultimately the recommended weight limit and lifting index. The final calculation indicates whether the worker is at risk of developing a musculoskeletal disorder. Additionally the information provided on each of the multipliers highlights which elements of the lifting task contribute the most to the risk. The user-interface design ensures that the system is easy to use. The interface also displays the results of the study enabling analysts to assess worker performance at any time in real time. The automated system therefore enables analysts to respond rapidly to rectify problems. The system also reduces the complexity of performing studies and it eliminates human errors. The time and costs required to perform the studies are reduced and the system can become a permanent fixture on factory floors. The development of the automated system opens the door for further development of the system to ultimately enable more detailed assessments of productivity and risk. / AFRIKAANSE OPSOMMING: Produktiwiteit en risiko evaluerings word in hierdie tesis saam hanteer deur die innoverende ontwerp, ontwikkeling en evaluering van 'n unieke stelsel vir die meting en ontleding van data. Alhoewel die skakel tussen hulle goed gedokumenteer is, word hierdie evaluering as afsonderlike antagonistiese entiteite hanteer. 'n Breë studie van die bestaande tradisionele en tegnologiese ondersteuningstelsels is gedoen om toepaslike metodes te identifiseer, om 'n gemeenskaplike tegnologiese platform vir outomatisering daar te stel. Die metodes wat gekies is vir die produktiwiteit en risiko bepalings is onderskeidelik werk monsterneming en die hersiende NIOSH opheffing vergelyking. Die outomatisering van hierdie prosedures word gefasiliteer deur middel van rekenaar visie en die gebruik van 'n Kinect™ 3D kamera. Die selfstandige C++ program integreer ‘n dubbelvolgings benadering om in reële tyd posisionele data van die werker en die werk-stuk te kry. Die OpenNI en OpenCV biblioteke word onderskeidelik gebruik om skeletale volging en beeld erkenning uit te voer. Die skeletale volger bepaal posisionele data van spesifieke gewrigte van die werker, terwyl die beeld erkenning komponent, 'n SURF implementering gebruik om 'n spesifieke werk-stuk binne die opname raam te identifiseer en te volg. Hierdie volgings tegnieke is berekenings intensief. Om werklike tyd uitvoering van die program te verseker, is Nvidia se CUDA gereedskapstel en liggewig boublokke geimplementeer. Die produktiwiteit meting-stelsel is 'n aaneenlopende monsterneming benadering van werk monsterneming. Die spoed van die werker se handbewegings en nabyheid aan die werkstuk word gebruik om die werker te klassifiseer as in een van vier moontlike toestande; besig, staties, onaktief of buite die raam. Benewens die werker gebaseerde metings, word daar ook data oor werkstukke bereken. Dit sluit in die aantal werkstukke verwerk deur 'n spesifieke werker, sowel as die gemiddelde en variasie in verwerkings tye. Die risiko-berekening is 'n outomatiese benadering van die hersiende NIOSH opheffing vergelyking. Die stelsel bereken wanneer die werker kontak maak en/of breek met die werkstuk en maak gebruik van die gewrigsposisies wat die skeletale volger aandui om die veranderlikes wat in die vermenigvuldigers gebruik word te bepaal. Die vermenigvuldigers word gebruik om die aanbevole maksimum gewig en die opheffing indeks te bereken. Die opheffing indeks dui aan of daar ‘n risiko vir die werker is om muskuloskeletale versteuring te ontwikkel. Benewens dui die vermenigvuldigers aan watter elemente die grootste bydra tot die risiko van die opheffingstaak maak. Die gebruiker-koppelvlak-ontwerp verseker dat die stelsel maklik is om te gebruik. Die koppelvlak vertoon ook die resultate van die studie sodat ontleders op enige tyd werker prestasie kan evalueer in reële tyd. Die outomatiese stelsel stel dus ontleders in staat om vinnig te reageer sodat probleme reggestel kan word. Die stelsel verminder ook die kompleksiteit vir die uitvoering van studies en dit elimineer menslike foute. Die tyd en koste vereis om die studie te doen, word verminder en die stelsel kan ‘n permanente instelling op fabriekvloere geword. Die ontwikkeling van die outomatiese stelsel maak die deur oop vir verdere ontwikkeling van die stelsel om uiteindelik daartoe te lei dat meer gedetailleerde evaluering van produktiwiteit en risiko bepaal kan word.

Computer vision

Labour performance measurement

Lifting and carrying -- Safety measures

Image processing

Productivity

Skeletal tracking

Revised NIOSH lifting equation

Dissertations -- Industrial engineering

UCTD

Theses -- Industrial engineering