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1

Effects of the environmental factors in call centre interiors: a case study

Jabłońska Joanna, Ceylan Salih

Budownictwo i Architektura

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2023

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Vol. 22, no 4

127--146

EN

Environmental factors in workspaces affect employee productivity and satisfaction, particularly in call centres. One of the most challenging issues in contemporary offices is overcoming the problems of concentration on work, despite adverse effects such as insufficient lighting, inappropriate acoustics, or inadequate ventilation. The challenges increase in open-plan solutions. This paper presents a case study from Turkey that elaborates on strategies to improve environmental performance in call centres. It is inspired by a questionnaire conducted among employees of a call centre, identifying existing design lacks. Based on the results, acoustic quality calculations of the physical workspace follow, and initial computing outcomes reveal that the conditions do not meet the standards for call centres. The authors propose strategies to improve acoustic performance in the workspace and apply them to a virtual model. Results reveal that the proposed solutions allow for meeting the standards. Based on the findings, the authors suggest several other strategies for improving the physical environmental quality of the place, thus forming a guideline for the architectural design of call centres. The study derives information from a specific case and context to propose universally applicable solutions. It fills a gap in the literature as it exemplifies the characteristics of call centres in Turkey, which have not been studied before.

2

Healthy Workspaces: Strategies for Increasing the Indoor Environmental Quality at Call Centre Interiors for Employee Wellbeing and Productivity

Ceylan Salih

Builder

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2021

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R.25, nr 3

60--63

EN

Indoor environmental quality is a requirement for good architectural and interior design. The definition of indoor environmental quality refers to the conditions of the interior space that provide health and wellbeing for its occupants. Elements of indoor environmental quality are thermal comfort, indoor air quality, ventilation, ergonomics, natural and artificial lighting, odor, and acoustic quality. Indoor environmental quality is required in every type of interior space including ones with residential, educational, and cultural functions and workspaces. It is also included as one of the factors of energy efficient and sustainable design in building energy certification and accreditation systems. This study focuses on call center interiors as a type of workspaces, where the employees spend a long time in the interior space communicating with customers on the phone. The aim is to provide theoretical information and practical application suggestions for higher quality design in call center interiors. The methodology of this paper consists firstly of a literature review to study and analyze the definition and elements of indoor environmental quality, and its implementation into call center interiors as workspaces. Analytical studies lead to strategy proposals for better designed call center interior spaces. The results of the study indicate that better designed interior spaces in call centers lead to better health and wellbeing of the employees, resulting with higher performance and service quality.

PL

Zapewnienie wysokiej jakości środowiska wewnętrznego budynku jest niezbędne w optymalnym projektowaniu architektonicznym oraz projektowaniu wnętrz. Definicja jakości środowiska wewnętrznego odnosi się do warunków przestrzeni wewnętrznej budynku, które zapewniają zdrowie oraz dobre samopoczucie użytkowników. Do elementów jakości środowiska wewnętrznego zalicza się komfort termiczny, jakość powietrza w pomieszczeniach, wentylacja, ergonomia, naturalne i sztuczne oświetlenie, zapachy, jakość akustyczna. Wysoka jakość środowiska wewnętrznego jest wymagana w każdym rodzaju przestrzeni wewnętrznej, w tym pełniącym funkcje mieszkalne, edukacyjne, kulturalne, a także w miejscach pracy. Jest ona również uwzględniana jako jeden z czynników efektywnego energetycznie i zrównoważonego projektowania w systemach certyfikacji oraz akredytacji energetycznej budynków. Niniejszy artykuł dotyczy wnętrz w centrach obsługi telefonicznej jako miejsc pracy, w których pracownicy spędzają dużo czasu w przestrzeni wewnętrznej, komunikując się z klientami przez telefon. Celem opracowania jest dostarczenie teoretycznych informacji i praktycznych sugestii dotyczących zastosowania wysokiej jakości wzornictwa we wnętrzach centrów obsługi telefonicznej. W niniejszym artykule wykorzystano przede wszystkim metodologię polegającą na przeglądzie literatury mającym na celu zbadanie i analizę definicji, a także elementów jakości środowiska wewnętrznego oraz jej wdrożenia we wnętrzach centrów obsługi telefonicznej jako miejscach pracy. Na podstawie badań analitycznych sformułowano propozycje strategii lepszego projektowania przestrzeni wewnętrznych w centrach obsługi telefonicznej. Wyniki badań wskazują, że lepiej zaprojektowane przestrzenie wewnętrzne w centrach obsługi telefonicznej prowadzą do poprawy zdrowia i samopoczucia pracowników, co przekłada się na wyższą wydajność oraz jakość usług.

3

A methodology of orthopaedic measurement arm workspace determination

Kobierska A., Podsędkowski L., Rakowski P., Rejmonczyk S., Kaszowski J., Olejniczak K., Golasiński B., Kaczmarek K.

Mechanics and Mechanical Engineering

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2017

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Vol. 21, nr 2

185--191

EN

This paper outlines general assumptions of work principle of displacement measuring arm that bases on accelerometers. Symbolic representation of arm’s kinematic structure is shown. Also, an analysis of construction correctness has been verified in terms of the effectiveness of using accelerometers to measure individual links displacements. A method of acquiring information on workspace is presented. The workspace has been determined in two variants: without considering last link orientation and for given orientation of that link. Paper also describes a determination method of increments values of angular displacements for individual links of the arm in terms of obtained proper results and rational computation time of workspace scanning algorithm. Finally, there is a presentation of method for determining a cuboid space for arm accuracy and repeatability measurement in XYZ coordinate system.

4

Computer aided design of human workspace and manually operated processes

Kampa A., Gołda G.

Selected Engineering Problems

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2016

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nr 7

19--24

EN

The design of human workspace and manually operated processes can be improved with the use of digital models of human body. An example of design human workspace in CAD software NX 10 and simulation example of work process in Jack software are presented. The use of digital human models allows to improve the ergonomics of human workspace and simulation of work process can be used for calculation of standard work time.

5

Kinematic parameters modelling joint variables of cardiosurgical telemanipulator for its autonomous movements

Wojnarowski J., Ilewicz G.

International Journal of Applied Mechanics and Engineering

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2012

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Vol. 17, no. 1

259-269

EN

Kinematics of a constant point mechanism of a cardiosurgical telemanipulator is modeled in the paper. Forward and invert kinematics is presented. A mathematical formula that describes the volume of workspace of a constant point mechanism is derived. It depends on joint variables of the kinematic structure of the mechanism. Acceptable values of joint variables for autonomous movements of the operating tool are obtained.

6

Analityczny opis przestrzeni roboczej robota eksperymentalnego

Lubiński M.

Pomiary Automatyka Robotyka

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2009

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R. 13, nr 6

40-41

PL

W artykule przedstawiono analityczny opis przestrzeni roboczej robota eksperymentalnego składającego się z manipulatora antropomorficznego typu IRb-6, zamontowanego na torze jezdnym LP-1 o zakresie ruchu od 0 m do 0,851 m. Manipulator wraz z torem jezdnym ma sześć stopni swobody [4]. Opisany algorytm umożliwia w prosty sposób stworzenie programu do sprawdzania możliwości chwytnych efektora robota bez konieczności rozwiązywania zadania kinematyki odwrotnej.

EN

Verifying the affiliation desired point of the workspace of the robot is a necessary stage before beginning to generate trajectory motion. The article presents algorithm checking the gripping ability of the device. The verifying point was removed from effector coordinates system to couple coordinates system. Experimental robot has the manipulator IRb-6 moving on Lp-1 track 851 mm long. Presented analytical workspace description takes into consideration additional restrictions from the range motion track and turning of the manipulator at an angle of 10°.

7

Measurement and calibration of machine tools in 6 DOFs in large workspace

Benes P., Valasek M., Sveda J.

Journal of Machine Engineering

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2009

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Vol. 9, No. 3

77--87

EN

The measurement and calibration of machine tools in the large workspace (for example 10x20x3m) and in all 6 DOFs (3 cartesian translations and 3 rotations) is not an easy task. A new device called RedCaM (Redundant Calibration and Measurement Machine) has been developed that enables simultaneously to measure all 6 DOFs in the workspace. The RedCaM machine was designed with redundant number of sensors and therefore as a parallel kinematical structure. Thus it profits from the fact that the sensor errors are not chaining. It is equipped only with the sensors and it is operated by the drives of the measured machine tool after the attachment of the platform into the machine tool spindle. The redundancy of sensors provides better accuracy, self-calibration property and very good ratio between the errors of particular sensors and the resulting error of the end effector position. This has been optimized and has proven the improved (minimized) transfer of the errors between the sensors and the position in space in 6 DOFs. In particular the used redundancy of sensors (9 sensors for 6 DOFs) enables the self-calibration (all kinematical parameters are calibrated during the first motions in the workspace) and the minimized transfer of errors between the sensors and the 6 DOFs of the platform that has been experimentally proven to be 1:1. The paper deals with the description of the modification of RedCaM for the usage in the large workspace of machine tools that are in principle unlimited.

8

Analysis of redundant trajectory generator's accuracy

Gronowicz A., Wudarczyk S.

Archives of Civil and Mechanical Engineering

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2004

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Vol. 4, no 1

5-16

EN

A planar mechatronic system with three degrees of freedom (a link mechanism having a closed structure and controllable drives) can execute any trajectory. Owing to the third drive the workspace is increased, but at the same time the problem of selecting driving functions for the execution of a particular trajectory arises. This paper deals with the effect of drive setting accuracy on the deviations in the execution of workspace points. A possible way of optimising the deviation of trajectories is shown. The accuracy ofan illustrative system' s work is analysed.

PL

Płaski układ mechatroniczny o trzech stopniach swobody - mechanizm dźwigniowy o strukturze zamkniętej wyposażony w sterowane napędy - może realizować dowolną trajektorię. Trzeci napęd zwiększa strefę roboczą, a jednocześnie pojawia się problem wyboru funkcji napędowych dla realizacji określonej trajektorii. W pracy przedstawiono wpływ dokładności ustawienia napędów na odchyłki realizowanych punktów strefy roboczej. Pokazano możliwy sposób optymalizacji odchyłek trajektorii, przedstawiono charakterystykę przykładowego układu pod kątem dokładności jego pracy.

9

Isometric Pull and Push Strengths of Paraplegics in the Workspace: 1. Strength Measurement Profiles

Das B., Black N. L.

International Journal of Occupational Safety and Ergonomics

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2000

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Vol. 6, No. 1

47--65

EN

The isometric strength profiles of male and female paraplegics were determined for pull and push strengths in the normal, maximum, and extreme working reach envelopes. A computerized isometric strength measurement system was designed and constructed for the purpose. The strongest pull location was at extreme reach vertically above the shoulder and the strength values for males and females were 473 and 318 newtons (N), respectively. The strongest push location was at maximum reach, at vertical ($) angle of 45° and at horizontal (6) angle of 45° for males and at 0° for women and the strength values were 235 and 172 N, respectively. The nature of the strength profiles was found to be similar for both the sexes. The pull and push strengths of the female were 77 and 68% that of the male, respectively.