Forthcoming and Online First Articles

International Journal of Vehicle Systems Modelling and Testing

International Journal of Vehicle Systems Modelling and Testing (IJVSMT)

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International Journal of Vehicle Systems Modelling and Testing (24 papers in press)

Regular Issues

  • Development and validation of a real-time capable vehicle dynamics simulation environment for road and test bench applications   Order a copy of this article
    by Alexander Ahlert, Alexander Fridrich, Werner Krantz, Jens Neubeck 
    Abstract: Holistic, real-time capable models, which are able to describe the overall 3D vehicle dynamics and nonlinear wheel suspension behaviour, are necessary for different applications, such as control system design and HIL test system operation. In this paper, a vehicle dynamics modelling approach is presented together with a methodology to derive the equations of motion and adapt them to special applications such as simulating a vehicle on a test bench. With the presented methodology and by using symbolic computation, the equations are obtained in analytical form with a minimal set of ordinary differential equations. The equations can be easily manipulated, simplified and evaluated according to the given task. This is especially valuable for overall vehicle test benches, wherefore the equations are needed for model-based control design and parameter identification. To prove the validity of the simulation environment, the resulting vehicle model for road applications is compared with commercial, state of the art vehicle dynamics simulation tools.
    Keywords: nonlinear multibody vehicle model; real-time simulation; modeling and simulation methodology; multi-purpose modelling; LEICHT wheel suspension;.

  • Tyre inflation pressure effects on the transient handling performance of a multipurpose protected vehicle.   Order a copy of this article
    by Manuel Tentarelli, Alessio Pizzi 
    Abstract: One of the main requirements for military vehicles is the capability to move over all types of terrain. For this purpose, many military vehicles allow the driver to change tyre inflation pressure to improve the mobility over soft soils. Although various studies have investigated the effect of the inflation pressure on the interaction between tyre and soil, to date there has not been an adequate analysis on the effects on lateral vehicle dynamics on the road. A Multipurpose Protected Vehicle (MPV) was instrumented and tested with a campaign of sweep steer tests at different tyre inflation pressures; experimental data were analysed in order to evaluate modifications on lateral handling performance. Although our tests did not show any compromise in directional stability, MPV dynamics on the road were found to be globally degraded by reducing tyre inflation pressure.
    Keywords: military vehicles; multipurpose protected vehicles; vehicle dynamics; tyre inflation pressure; transient handling performance.

  • Rear wing spoiler effects on vehicle stability and aerodynamic performance   Order a copy of this article
    by Hossam Ragheb, Moustafa El-Gindy 
    Abstract: Nowadays, it is useful to understand the aerodynamic effects of the rear vehicle spoiler because of financial protection as well as environmental issues. The rear spoiler plays a major role in vehicle aerodynamics, improving agility, driving stability, handling, fuel consumption, acceleration and braking by optimal angle, size and shape to achieve the best performance of the vehicle. In the last decade, substantial efforts have been invested in the restrictions of modern wind tunnel tests and prompted advances in computer technology to research vehicle aerodynamics computationally. This paper uses commercial fluid dynamic software ANSYS FLUENT
    Keywords: aerodynamics; CFD; spoiler; lift coefficient; drag coefficient.

  • On aerodynamic drag reduction of road vehicles in platoon   Order a copy of this article
    by Wei Gao, Zhaowen Deng, Ying Feng, Yuping He 
    Abstract: With the spiking of fuel price and stringent requirements on greenhouse gas emissions, we are confronted with a daunting challenge to reduce the aerodynamic drag of road vehicles. When vehicles are travelling in a platoon, the wake of the preceding vehicle can affect the aerodynamic characteristics of the following vehicle. Owing to the interaction of the airflow field of the platoon and the involved vehicles, the drag of each vehicle changes, affecting the vehicle's fuel consumption. In the study, the Motor Industry Research Association (MIRA) car models, namely notchback, fastback, and squareback, are generated. The airflow fields for these isolated single-vehicle models are imitated by CFD simulation. The numerical results of the drag coefficients are compared with wind tunnel test results. The drag coefficient errors between the simulation and the experiment results are less than 6%, implying that the simulation and the wind tunnel tests achieve a good agreement. Using CFD simulation, we explore the effects on the aerodynamic properties of vehicles in platooning due to the factors of non-uniform inter-vehicle separating distance, number of vehicles, and vehicle shape. Insightful findings derived from the study will provide guidelines for the development of intelligent transportation systems and autonomous vehicle platoons.
    Keywords: automotive aerodynamics; drag reduction; platoon driving; CFD simulation; impact factors.

  • Vehicle directional stability control: a literature survey   Order a copy of this article
    by Moataz Ahmed, Haoxiang Lang, Moustafa El-Gindy 
    Abstract: Lateral dynamic control for ground vehicles has been under study for more than three decades to ensure safe driving. Lateral dynamic control is involved in automotive engineering in two areas of study. The first is lateral stability control to enhance the vehicle directional stability when turning. The second is vehicle autonomy to secure stability while tracking at high speed. The state of the art and development in control methodologies of the most notable researches will be reviewed in this paper. Also, a comprehensive review for direct yaw control, active steering, and integrated chassis control systems will be introduced for both two-axle and multi-axle ground vehicles. Finally, the inclusion of lateral dynamic control in autonomous applications will be discussed to show the area of research that is not covered yet and requires more attention to improve both stability and tracking performance of ground vehicles.
    Keywords: stability control; vehicle handling; vehicle directional control; direct yaw control; torque vectoring; active steering; path following.
    DOI: 10.1504/IJVSMT.2021.10043849
     
  • Study on the air flow characteristics of the in-wheel motor drive system of electric vehicles   Order a copy of this article
    by Di Tan, Fan Song, Shuaishuai Liu 
    Abstract: The in-wheel motor is installed in the wheels. The air flow field around the in-wheel motor shows strong time-variance and non-linearity with the wheel rolling, and the flow field characteristics will change with different vehicle velocities. This is quite different from the current empirical estimates, and the accuracy of the analysis results of the thermal characteristics for the in-wheel motor is further affected. Based on this, an electric vehicle driven by a rear-drive in-wheel motor is taken as the research object in this paper. Based on the development of the vehicle model with the critical components, the air flow field characteristics around the in-wheel motor and the influence of vehicle velocity are obtained by analysing the flow field of vehicle at different vehicle velocities. Meanwhile, the heat dissipation coefficient of each surface of the in-wheel motor is calculated at different velocities according to the results of the flow field analysis. The results show that the distribution trend of the flow field on each surface of in-wheel motor is basically the same when the vehicle runs at different velocities. The air flow velocity on each surface of the in-wheel motor increases linearly with the vehicle velocity, and the velocity difference on each surface of the in-wheel motor is larger. The highest and average velocities of each surface are in the order from large to small and left cover, right cover and house. This paper provides a theoretical basis on the research of heat generation and heat dissipation of the in-wheel motor drive system.
    Keywords: in-wheel motor drive system; electric vehicle; flow field characteristics; heat dissipation coefficient.

  • Optimisation of robust and LQR control parameters for discrete car model using genetic algorithm   Order a copy of this article
    by Mohammed Kaleemullah, Waleed Faris 
    Abstract: Active suspension systems are a main feature in modern cars and will be the main stream in the future, and the optimisation of their performance requires many studies about the different types of controller. Robust H-infinity and LQR controllers are used to control the suspension system and to reduce the vibrations in the car and to improve handling. A half-car discrete model is considered in this research to study the effects on passengers due to different road profiles. The weights of the two controllers are obtained using genetic algorithm on a half-car model with two different types of common road disturbance. The design parameters of both the active controllers vary with various road profiles. This proves that particular design parameters in robust and LQR controllers do not have the ability to adapt to the variations in road surface. Furthermore, active controllers significantly improve the performance of the system in all aspects when compared with passive systems.
    Keywords: vehicle dynamics; vehicle control; modelling.

  • Vehicle yaw stability control: literature review   Order a copy of this article
    by Mohamed Omar, Moustafa El-Gindy 
    Abstract: Vehicle dynamics control can be realised through controlling the vehicle in longitudinal, lateral and/or vertical motion. The focal point of this study is vehicle lateral dynamics control, where yaw stability control has a great influence on vehicle handling and stability performance. Vehicle dynamics control is experiencing an ongoing evolution to ensure vehicle safety and ride comfort. Consequently, several research studies have been proposed to improve vehicle lateral dynamics via yaw stability control. Based on these previous studies in the past three decades, this review paper aims to investigate the main fundamental elements of vehicle yaw stability control structure, in terms of the used vehicle models, control objectives, various control systems implemented for active chassis control and control allocation strategies.
    Keywords: active chassis control; vehicle dynamics control; direct yaw control; active steering control; integrated chassis control; torque vectoring; differential braking; active front steering; active rear steering.

  • Remaining energy estimation strategy for lithium-ion battery pack based on RLS-UKF algorithm   Order a copy of this article
    by Qiuting Wang, Wei Qi, Duo Xiao 
    Abstract: This paper focuses on a modelling method and online estimation strategy to estimate the remaining energy of a lithium-ion battery pack. the new estimation method is based on system complexity analysis and it can describe the external characteristics of different temperatures and frequencies for the battery model. The recursive least squares (RLS) algorithm is introduced to update the battery parameters online. The relationship equations between the remaining energy of the battery pack and the state of charge of the single cell is established. Meanwhile, the Unscented Kalman Filtering(UKF) algorithm is used to estimate the remaining energy online. The influences of temperature and charge/discharge ratio is considered. Finally, the inconsistency influence between different cells are analysed. The validity and reliability of our new model and estimation strategy are verified under UDDC experiments. The experimental results are compared under real-time conditions.
    Keywords: vehicle system; lithium-ion battery pack; remaining energy; SOC; recursive least squares; UKF; system complexity analysis.

  • Research on vehicle safe speed based on real-time ramp information   Order a copy of this article
    by Chang Lv, Shuo Liu, Peng Liu, Qiong-qiong Liu, Jin Yan, Si-da Zhu, Xiao-ming Hu, Jun Ni, Jiang Chang 
    Abstract: The influence of longitudinal gradient is ignored in the ramp safe speed control of tank trucks. To solve this problem, taking CLW9390GYQA tank truck as an example, the image recognition technology is used to obtain the ramp curvature radius, transverse gradient and longitudinal gradient at one time. The model is used to calculate the safe speed, and the weight of the impact of the three ramp geometric parameters on the safe speed is calculated. Considering the influence of the longitudinal gradient, the ramp safety speed model is built by combining other ramp geometric parameters and vehicle parameters, and the safe speed is calculated in real time. Compared with the calculation result without considering longitudinal gradient, the results show that the safe speed model considering longitudinal gradient is more in line with the actual working condition of the tank truck, and the result is more accurate. The results are also applied to other vehicles and curves with universal characteristics, and provide a basis for intelligent vehicle speed control.
    Keywords: tank truck; ramp; safe speed; image recognition; transverse gradient; longitudinal gradient.

  • Feedback linearisation and disturbance observer based path following control for autonomous ground vehicle   Order a copy of this article
    by Pengpeng Feng, Jianwu Zhang, Tongli Lu 
    Abstract: In this paper, a feedback linearisation and nonlinear disturbance observer based controller is proposed for the path following of an autonomous ground vehicle. The path following is realised through the tracking of the designed yaw rate and lateral velocity generated by a upper layer controller according to the path information. A feedback linearisation controller is designed considering the nonlinearity in the vehicle model. Then the disturbance caused by external disturbance and tyre model error is estimated by a nonlinear disturbance observer, and the corresponding compensation is added into the control input to improve the performance of the controller in disturbance rejection. The stability of the comprehensive system is proved using Lyapunov method. Simulations and comparisons performed in a Carsim-Simulink joint platform verify the effectiveness of the present controller.
    Keywords: autonomous ground vehicle; path following; feedback linearisation; nonlinear disturbance observer; robust compensation.

  • An experimental inverse and direct kinematics analysis of multi-axial simulation table   Order a copy of this article
    by Deniz Sönmez 
    Abstract: This paper presents the inverse and direct kinematics analysis and experimental study of a parallel manipulator of Multi-Axial Simulation Table (MAST). The numerical simulation was used to predict the workspace analysis and path planning hydraulic cylinder advancement and the workspace of the centre of MAST. Following the numerical simulations, the results were compared with experimental measurements. The results indicate that the numerical and 3D CAD kinematic simulation results show good compatibility with experimental measurements obtained from MAST.
    Keywords: 6-6 Stewart platforms; multi-axial simulation table; inverse and direct kinematics; Jacobian analysis; position analysis.

  • Study of hybrid electric vehicle energy-saving control based on a multi-agent system   Order a copy of this article
    by Limin Niu, Quanquan Zhang, Fentian Zhu, Jianmei Lv, Hongyuan Yang 
    Abstract: In order to reduce the fuel consumption of hybrid electric vehicles (HEV), a multi-agent energy-saving control method is proposed. A subsystem agent model of the engine, motor, battery and other powertrain components is established, meanwhile, the powertrain coordinated control framework based on multi-agent system is built. A multi-objective optimisation algorithm of power distribution for minimum global energy cost combined with the minimum equivalent fuel consumption (ECMS) is proposed. All agents optimise their operating efficiency to limit the request torque, and the control of HEV powertrain is coordinated by the interaction between different agents about compensation torque information. The hardware in the loop simulation based on D2P (From Development to Production) system of the powertrain multi-agent system is verified. Simulation and bench test results show that the HEV powertrain multi-agent coordinated control algorithm can distribute the power according to different driving cycles adaptively, and the HEV fuel economy is improved effectively.
    Keywords: energy-saving control; multi-agent system; powertrain; hybrid electric vehicle.

  • Kinematics and compliance analysis using a 14 DOF virtual vehicle model: developing a software for simulation and post-processing   Order a copy of this article
    by Cádmo Dias, Janes Landre Jr 
    Abstract: This paper aims to develop software to analyse the influence of the variation of vehicle suspension angles. To do so, a model with 14 degrees of freedom was integrated with a graphical user interface that allows the user to define some parameters of the suspension and the environment. At the end of the work, it was possible to observe that the behaviour of caster bump for vehicles with different caster values is the same. Another conclusion that was already expected and validated the model and the software for this type of analysis is that when the left wheel of a suspension is excited, the load passed to the right side will be much greater if the suspension is dependent than if it is independent. The third and final analysis showed that the MacPherson strut has better responses than the double wishbone suspension when it comes to minimising bump effects.
    Keywords: software development; automotive engineering; vehicle dynamics; virtual simulation; virtual vehicle models.

  • Research on the shift rule of two-speed transmission in a pure electric van   Order a copy of this article
    by Long Haiyang, Wang ZhiTao, Wang Jiajun, Li Yongpo, Hui Xuewen, Tan Senqi 
    Abstract: To balance the dynamic and economic performance of pure electric vehicles, an optimal shift schedule is proposed in this paper for a pure electric van equipped with a two-speed gearbox. The driving motor parameters are calculated based on the vehicle dynamic requirements, and the driving motor characteristic curve is used to establish the optimal shift schedule. To analyse the dynamics of the whole vehicle, the maximum acceleration method is adopted and the relationship between acceleration and speed under different throttle opening degrees is obtained, thus the optimal dynamic shift point is determined. To generate motor efficiency MAP offline, the law of economic shift is obtained using table lookup, thus the optimum economic shift point is determined. The comprehensive dynamic and economic shift schedule is obtained, which considers both dynamic and economic factors. Dynamic and economic simulation verification is performed in MATLAB Simulink, the results show that the integrated shift schedule can meet the dynamic and economic requirements of electric vehicles, and provide a theoretical reference for the formulation of the shift schedule of electric vehicles.
    Keywords: pure electric vehicle; dynamic shifting schedule; economical shift schedule; comprehensive shift schedule.

  • Research on power transmission optimisation of dual motor coupling drive for pure electric car based on genetic algorithm   Order a copy of this article
    by Qingyong Zhang, Xingjian Wu, Yiqing Yuan, Saiyun Xu, Zhenfei Lu 
    Abstract: Based on a pure electric vehicle, we have adopted a new dual motor coupling drive system to realise a smooth switch between the single motor and dual motor modes, without experiencing power interruption, and a switch between dual motor and single motor modes without experiencing power interruption and with minimum impact. Also, the structural characteristics and working mode are analysed, and the parameter matching and control strategy of the new power system is studied. Taking the 100 km power consumption as the optimisation goal, a non-dominated sequencing genetic algorithm (NSGA-II) with elite strategy is adopted to optimise the coupling drive system. The results of the experiment show that the control strategy of the dual motor multi-mode drive system improves the vehicle economy by 12%.
    Keywords: control strategy of dual motor coupling drive system; parameter optimisation; CRUISE; NSGA-II.

  • Control system for determining real driving range in electric vehicles   Order a copy of this article
    by Carlos Armenta-Deu, Erwan Cattin 
    Abstract: The main goal of this project is the design of a control system to determine real energy consumption in electric vehicles, thus to calculate the remaining driving distance. The control system uses specific developed software that takes into account real driving conditions. Data for the software calculation are taken either from a database or from online operating driving conditions. the system is adaptive, thus valid for all electric vehicles, driving conditions, way of driving and type of the road. The system also includes specific hardware to calculate parameter values for the input simulation. The theoretical approach has been correlated to experimental tests within 96% accuracy, thus proving the validity of the proposed method. The new protocol represents a useful tool to determine not only the driving range of electric vehicles, but also the remaining driving distance.
    Keywords: electric vehicles; control system design; software design; electronic devices; energy consumption; driving range.

  • Study of composite load-bearing characteristics of the Uptis non-pneumatic tyre   Order a copy of this article
    by Xuemeng Liang, Hongxun Fu, Yan Wang, Laiyun Ku, Huanbo Qiao, Ning Li 
    Abstract: In order to investigate the basic mechanical properties of the Uptis non-pneumatic tyre, this paper refers to the Uptis prototype tyre for modelling and its composite load-bearing characteristics are studied in depth. Based on ABAQUS software, the three-dimensional model and numerical analysis model of the Uptis non-pneumatic tyre are established, and the mechanical properties are analysed under the radial force only, and under the composite force. The results show that the stiffness characteristics, grounding pressure distribution law, and the stress-deformation characteristics of the flexible spoke non-pneumatic tyre ensure that the tyre has both cushioning and damping performance on the basis of excellent load-bearing characteristics. The research work of this paper provides a certain theoretical reference for the structural optimisation and practical application of the Uptis non-pneumatic tyre.
    Keywords: non-pneumatic tyre; Uptis non-pneumatic tyre; mechanical properties; composite load-bearing characteristics; numerical analysis; stiffness characteristics; radial stiffness; lateral stiffness; longitudinal stiffness; grounding pressure distribution law; stress-deformation characteristics.

  • Variable transmission ratio and active steering control for steer-by-wire steering   Order a copy of this article
    by Bin Zhao, XiaoBin Fan, GengXin Qi 
    Abstract: Steering-by-wire is different from traditional mechanical steering. It cancels the mechanical connection between the steering wheel and the steering mechanism and can freely design the transmission ratio. This paper uses CarSim and Simulink co-simulation to establish a vehicle model with steer-by-wire based on the yaw angle gain. The ideal transmission ratio is designed with constant weight and constant lateral acceleration gain. The fuzzy control design is adopted at high speed, and the sliding mode control algorithm of active steering is designed based on the ideal transmission ratio. Finally, it is verified by simulation experiments that the vehicle stability and handling after variable transmission ratio are better than traditional mechanical steering, which effectively reduces the operating burden of the driver.
    Keywords: steer-by-wire; yaw angle gain constant; weighted design; ideal transmission ratio; fuzzy control; sliding mode control.

  • Static analysis of the carcass geometry influence on an automotive radial tyre using finite element model   Order a copy of this article
    by Marcos Campolina, Cádmo Dias, Pedro Américo Jr, Jánes Landre Jr 
    Abstract: The use of finite element models has been a great ally in product development, especially in the automotive industry in order to predict and obtain product improvements, in the case of this paper focused on tyre development. This paper describes a finite element model, from the elaboration of the tyre computer-aided design model up to the tyre service conditions for a static analysis of the tyre and with special attention to the effect of changing the geometry of the carcass from mono-ply to bi-ply and the way that it affects directly the structure stiffness of the tyre. The model allows a greater number of analyses to be carried out in less time than the development and testing of one industrial prototype. Descriptions of the model structure and construction procedure is provided, including inflation and footprint analyses and lateral, longitudinal and vertical stiffness.
    Keywords: tyre model and forces; pneumatic tyres; finite element model; vehicle dynamics; virtual simulation.

  • Improved models of vehicle differential mechanisms using various approaches   Order a copy of this article
    by Maxym Diachuk, Said Easa 
    Abstract: The mathematical modelling of the branched automotive drivetrain is mainly based on various configurations of the differential mechanisms (DM). This paper proposes variant mathematical methods for modelling DM's dynamics. The symmetric (open) DM is considered first. Two mathematical methods based on ODE and DEA problems are applied. The asymmetric self-locking inter-axle differential with proportional friction moments is then considered. Three variants of the mathematical models for this DM type are represented. The linearised model uses the shortest description based on a previous step solution. Two other nonlinear models are formed by mixing with ODE and DEA approaches. The Simulink blocks for implementing developments were composed. The models were validated by comparing the results under the same conditions to prove their mathematical coherence. The analysis of the proposed variants was carried out regarding structural complexity, usability, computational speed, and relative accuracy. Conclusions about their usability in drivetrain dynamics and active control were made.
    Keywords: symmetric differential; self-locking differential; friction clutch; differential efficiency.

  • Influence of road and rider characteristics on durability of motorcycles   Order a copy of this article
    by Aptin Haerian, Kemal Öztürk, Robert Liebich 
    Abstract: The present work deals with the virtualisation of motorcycle customer behaviour. First, a method was found to identify design-relevant customers based on collected onboard signals. For vertical excitations, the roughness of the road and ridden velocities were examined with multi-body simulations (MBS). A measurement of a real motorcycle equipped with wheel load transducers and data-logging devices on a test track was used for validation. Using a similar dataset, an approach is presented with which virtual tracks are created. A measured speed profile and scatter for the vertical excitation were considered to obtain precise loads via MBS. Besides the virtualisation of the road, a novel algorithm was developed to generate speed profiles based on rider characteristics. Different synthetic rider types from beginner to expert were defined and compared. The developed methods enable the identification of design-relevant customers and the simulation of load profiles resulting from real customer usage.
    Keywords: virtual environment; motorcycle; driver behaviour; durability; multi-body systems; driver-vehicle systems.

  • Special and misuse events for motorcycles   Order a copy of this article
    by Aptin Haerian, Kemal Öztürk, Robert Liebich 
    Abstract: The present work deals with the topic of special and misuse events for motorcycles. First, a novel approach was found to define these events based on signal characteristics related to durability engineering. Furthermore, a multi-body simulation (MBS) model of a motorcycle was created to determine loads for special events. A suitable tyre model and relevant control systems were integrated for co-simulations. To validate the virtual model, wheel forces and selected onboard signals were compared with measurements of a real motorcycle ridden on a proving ground. The model showed sufficient agreement as the maximum wheel forces could be predicted with accuracies between 80% and over 99%. Afterwards, the loads were used to define representative special events. The kerb, sleeper, and bumper impacts were the most important events as they led to the highest forces. The gained perceptions enable a faster and more target-oriented definition of design loads while additionally saving costs.
    Keywords: special events; multi-body simulation; motorcycle; durability; misuse events; impact.

  • Development of a rolling truck tyre model using an automatic model regeneration algorithm
    by Shahram Shokouhfar, Subhash Rakheja, Moustafa El-Gindy 
    Abstract: A three-dimensional finite element model of a rolling radial-ply truck tyre is developed to predict its vertical and cornering properties at relatively high speeds. The model includes a detailed representation of the tyre complex geometry and multi-layered composite structure including the carcass and belt plies, bead fillers and tread. LS-DYNA, a nonlinear finite element code, is used as the simulation tool. An algorithm is developed for efficient formulation of the model for parametric analyses. The validity of the proposed tyre model is demonstrated by comparing the predicted load-deflection, cornering and free vertical vibration characteristics with the reported experimental data. The simulation results revealed robust behaviour of the tyre model up to rolling speeds of 100 km/h. The verified tyre model is subsequently employed to study the influences of various operating parameters, namely, the inflation pressure, vertical load, rolling speed and road friction on the tyre vertical and cornering properties.
    Keywords: rolling truck tyre models; multi-layered tyre structure; vertical tyre properties; cornering properties; parametric studies; finite element method; FEM; LS-DYNA; automatic model regeneration; truck tyres; tyre modelling; radial-ply tyres; carcass plies; belt plies; bead fillers; tyre tread; simulation; rolling speed; load deflection; free vertical vibration; tyre inflation pressure; vertical load; road friction; radial tyres.
    DOI: 10.1504/IJVSMT.2016.10000460