Anti Jerk Control Of Hybrid Electric Vehicles Engineering Essay

Anti Jerk Control Of Hybrid Electric Vehicles Engineering Essay This interim report consists of three chapters explaining the initial study and research into anti jerk control of hybrid electric vehicles. This project aims at electrification of anti-jerk control in hybrid vehicles by using the hybrid vehicle electric motor to damp these oscillations and to analyze its effect on fuel consumption, comfort and sportiness of the vehicle and then to compare the results with fuelling only method. This project will also include studying the impact of passive damping with DMF in these vehicles. As a part of this project, a model of a hybrid diesel engine driveline with DMF will be developed using Simulation X and an active feedback control for an electric motor will be designed to permit active damping of these oscillations. The results obtained from simulating the drivelines modeled using Simulation X will be observed for driveline vibrations with respect to the frequency range and also the range in which the jerking frequencies affect the passengers inside the vehicle so as to concentrate on it specifically leading to maximum reduction in jerking of driveline. The models so developed will then subjected to design modifications and investigation in accordance with the control strategies developed and affect of the same will be observed on all the drive train models with level of jerk control achieved. Finally Suggestions will be made on effect of electric motor on hybrid drive train in damping the driveline oscillations, fuel consumption and sportiness of the vehicle also comparing it with the conventional drive train models. Introduction In the age of technology where everyone is concentrating on improving the products by bringing in sophisticated technologies from cars to airplanes, we as human beings neglected the environment factor over the years. 20th century was called an industrial age and much technological advancement have been made in this era which revolutionized the whole world. One of the industries which is closely related to connect our daily life are automobiles. Automobiles have grown rapidly over the years with stiff competition among automotive manufacturers across the world. As the time passed by people become more demanding with their interests widening the automotive market and also the fact that automotive majors started delivering those demands. These technological improvements along with human comfort factors all of us forgot about the effect on environment. The number of vehicles on roads grew exponentially and consumption figures of petrol and diesel across the world increased drastically sending out alarm bells to search for alternate fuel technologies as the conventional petrol diesel were not only running out from their existence but also affecting the environment leading to considerable amount of CO2 emissions and further contributing to global warming. This future problem opened up opportunities for research in alternative fuel technologies leading to the development of Hybrid vehicles, Fuel cell technologies Hydrogen fuelled cars. Few of the alternate fuel vehicles are Toyota Prius hybrid, Honda Civic hybrid, Honda Insight etc which have received good response in the market in terms of performance as well as in reducing CO2 emissions and have successfully proved their presence in the market with their selling volumes and fuel savings. On a smaller level, these developments lead to further research in areas like DC/AC motors, fuel cells, battery pack technology, advanced controller design, power optimization and new concepts which can be used as alternate fuels. Problem Definition Commonly in every engine driven system issue of noise, vibration and harshness (NVH) comes along with it. Automotive manufacturers have always tried to maintain healthy comfort to performance ratio so as to attain maximum customer satisfaction. With respect to comfort of driving, the manufacturers main aims are to provide vibration free driving pleasure as much as possible and the same applied to hybrid electric vehicles. One such area of concern in drive line jerking which affects the overall drivability. Jerking is a kind of driveline oscillations which occurs due to excitation caused by sudden or huge variation in engine torque or driveline load. These excitations cause because of torsional vibration of drive train at high engine torques leading to unwanted longitudinal oscillations of passenger compartment which reduces the riding comfort and drivability. These oscillations have tendency to occur at low engine speeds which are experienced as unpleasant jerking effect by the drive r. Due to the fact diesel engines produce high torque at low engine speeds, makes these engines more prone to this problem. The area of concentration under this case is vibration frequencies ranging between 2- 10 Hz as human body is sensitive towards this frequency range causing unpleasant driving experience. These driveline oscillations majorly occur during tip in and tip out conditions. In conventional diesel engine vehicles methods like active control of fuel injection into engine and passive element such as dual mass flywheel are used to permit feed forward active as well as passive damping of these unpleasant oscillations in idle, tip-in/tip out and coast conditions. To achieve minimal amount of driveline oscillations, vehicle manufacturers have to compromise between comfort and performance of the vehicle. In diesel hybrids, the jerking can be controlled by varying fuel injection and electric motor torque control and also passively by an additional dual mass flywheel (DMF). Aims Objectives The aims and objectives of this project are: To develop a model with three different configurations of powertrain using Simulation X those are: Conventional diesel engine, Conventional diesel engine with DMF and finally hybrid power train with DMF. To study the effects of jerk in each individual power train configuration before developing the control strategy for anti jerk control. To electrify the anti jerk control in hybrid vehicles by using Crankshaft integrated stator/generator to damp the oscillations. To analyze the effect on fuel consumption, comfort and sportiness of the vehicle. To compare the results with conventional fuel control method. Literature Review Hybrid Electric Vehicles Hybrid Electric Vehicle is the one which uses two or more sources of energy to propel the vehicle which consists of an internal combustion engine and electric motor power by batteries. Hybrid vehicles are of various types such as series hybrid, parallel hybrid and combination of series parallel and based on their hybridization factor they are categorized into micro, mild and full hybrids. Figure 1, below shows the typical power split type power train. Generally, hybrid power trains are costly to build due to its complexity but the costs are paid off against the running costs due to improved fuel efficiency. Regenerative braking plays an important role in conserving energy by charging the battery pack. Figure : Showing a Power Split Hybrid Powertrain Types of Hybrid vehicles based on drive train structure Parallel Hybrid In parallel hybrid vehicles, there are two parallel ways for transmitting power to the wheels of the vehicle; those are by engine and by electric drive, as shown in below figure 2. The transmission is coupled with the motor/generator and the engine, allowing either, or both, to power the wheels. Control architecture of parallel hybrid vehicles is more complex compared to a series hybrid due to the requirement of efficient coupling of the motor/generator and engine so as to maintain optimum drivability and performance. Figure : Parallel Hybrid Powertrain Operating modes available in parallel hybrid vehicles are: Engine only traction Electric only traction Hybrid traction Regenerative braking Series Hybrid In series hybrid there is only one way for transmitting power to the wheels of the vehicle, but consists two energy sources. As shown in figure 3, the conventional engine is coupled to a generator for charging the battery pack which provides electrical energy to a motor/generator to power the wheels via transmission. The motor/generator can also be used for recharging the battery during braking and deceleration. Figure : Series Hybrid Power train Operating modes available in series hybrid vehicles are: Electric only traction Electric traction battery charging Battery charging and no traction Regenerative braking Series-Parallel (combined) Hybrid electric vehicles A Series-Parallel (combined) hybrid vehicle has both the aspects Series and Parallel energy transfer paths. As shown in figure 5, a system consisting of motors and/or generators consisting of a gearing or power split device allows the engine to recharge the battery. Changes in this power train configuration can range from simple to very complex type depending on the number of motors /generators and their working terminology. These configurations can be called as Complex hybrids (such as the Toyota Prius and Ford Escape Hybrids), Split-Parallel hybrids, or Power-Split hybrids. Figure : Series-Parallel (Combined) Hybrid Power train Driveline Jerking Driveline jerking also called as driveline oscillations can occur due to many different factors such as load changes, gear shifting and also the condition of the road. In recent times, direct injection diesel engines with extensive refinement of components and significant weight reduction in driveline lead to the problem of driveline jerking. Also with advancement in diesel engine technology over the years, output torque of these diesel engines has risen tremendously for passenger cars effecting the comfort and drivability. The problem with high engine torque is, it causes torsion of driveline due to the gear ratios of the final drive causing the torsion at drive shafts which in turn causes whole power train to oscillate with combined effect of vehicle jerking. Figure 5, shown below show the measurements on a test car caused by tip in behavior in which driver suddenly steps on the throttle combined with high torque gradient and tip out condition, the back out maneuver. Figure : Engine torque and engine speed for tip in and tip out maneuvers. Though the oscillations caused by engine speed are somewhat absorbed by engine mounts but the oscillations due to wheel speed is responsible for horizontal vibrations of the vehicles longitudinal acceleration affecting the performance of the vehicle which is experienced directly by passengers. To restrain these oscillations affecting the comfort and drivabilityfor the passengers, damping of these driveline oscillations is necessary which is referred to as Anti Jerk Control. The oscillations leading to power train jerking in conventional power train can be categorized by the Eigen frequencies of following driveline components: Torsion of shafts causes pitching and jerking due to suspension system, mass of the vehicle and damping. The range of frequency for this cause lies between 2 5 Hz. Also, we know that the natural frequency of the vehicle with respect to pitch motion is lies between 1 2.5 Hz. The frequency of oscillations caused by engine movement and mounts lies in the range of 15 200 Hz. The vibration due to gearbox assembly lies in the frequency range of 50-80 Hz. There are oscillation depending upon the type of engine, no. of cylinders, engine speed and also the combustion process shown in below figure Table : showcasing different engine types and their Eigen frequencies Engine Type Multiples of Eigen Frequency 4-Cylinder ,R4, 4-Stroke 2,4,6,8,10 6-Cylinder,R4, 4-stroke 3,6,9 6-Cylinder,V60,4-Stroke 1,5, 3, 4,5, 6, 7,5, 9 6-Cylinder,V90,4-Stroke 1,5, 3, 4,5, 7,5, 9 12-Cylinder, V60, 4-Stroke 6,12 From the above categorization of the components and their respective Eigen frequencies, the main aim is to narrow down on the components leading to vibrations which are felt by passengers majorly and to minimize the level of vibrations by designing model based predictive control strategy while retaining the performance of the vehicle as much as possible. Hybrid Vehicle Design The power train which has been considered for testing the jerking behavior and the anti jerk control strategy to be designed is shown in the below figure 6. This power train is one of the possible hybrid vehicle architecture consisting of I.C engine, CISG (Crankshaft Integrated Starter/ Generator), Dual Mass Flywheel (DMF), Clutch, Gearbox assembly , High voltage battery pack and power electronics. Figure : Hybrid Vehicle architecture In operation, at lower rpm the vehicle acts as pure electric vehicle powered by the on board battery pack and at higher rpm, both electric drive and I.C engine together produce required power by the vehicle. The percentage of power transmission sharing to propel the vehicle plays an important role in determining fuel efficiency. Design Considerations The components and factors which play important role in hybrid electric vehicle design shown in figure 6 are: Engine design and selection: The I.C engine as in conventional power train plays an important role in hybrid vehicles. Generally, engines designed for hybrid vehicles are smaller in size compared to conventional vehicles. Though the design selection of the engine is completely based on the power requirements of the vehicle. Crankshaft integrated starter/generator (CISG): The starter/generator is device which is controlled electronically. It combines both the functions of a conventional starter and generator into a one single unit. The motive of single CISG unit is replacing the starter as a single entity which is passive in nature; need to replace the old fashioned belt and pulley type connection between the alternator the engine. Also to replace the modern day rotor wound alternators with slip rings and brushes. The integrated starter/generator works as a bi-directional device which converts electrical energy to mechanical work and vice versa. As a electric motor, it assists in starting the I.C engine without any noise and also much quicker than conventional starter. As a generator it produces power required for electrical components of the vehicle and is also used to charge the batteries. Commonly integrated starter/generator is placed between engine and gearbox assembly. The main operating features of ISG are it enables stat/stop, onboard power generation and acts as power assist when required. Figure : Integrated Starter / Generator. Dual Mass Flywheel (DMF): Dual mass flywheel consists of two flywheels connected by long arc travel springs located between I.C engine and clutch or transmission. The first DMF was introduced for the automotive industry in 1985. At that time non lubricated dampers were used consisting of heavy springs which were problematic. Then there was breakthrough in the DMF technology and arc spring type dampers was introduced in 1989 solving almost all the problems which were caused by DMF earlier. Due to the high cost of this product not everyone was interested but was used in large vehicles. Though DMF is a passive driveline element, it has been proven that DMF reduces torsional vibrations to certain extent and plays an important role in anti jerk control of hybrid vehicles also. The operating performance of DMF can be characterized by the spring rate and its damping characteristics. The dual mass flywheel consists of following important characteristics: Primary and secondary inertias. The torsion damper rate. And the damping characteristic. Advantages of using DMF in conventional power train are: Segregation of torsional vibrations: we know that, torsional vibrations are caused by torque fluctuations. A vehicle is a kind of vibrating system with all the components like engine, transmission, drive shafts etc all contributing to the cause. Below figure 8, shows the simple driveline model so as to observe vibration behaviour. In this case engine and transmission are supposed as rotating inertia connected by springs. The spring C2 represents the spring damper characteristics and spring C3 showing the stiffness of the drive train. Figure : Drive train with vibration modes. Figure 9 shown below depicts the fluctuations in vehicle speed and in this case damped resonance occurs at around 1700 rpm. The main aim of DMF is to sideline the vibrations occurring from the engine as far as possible from the rest of the driveline components. Also the figure compares the difference between the extents of vibrations in a conventional drive train compared to one fitted with dual mass flywheel. Dual mass flywheel efficiently reduces the engine vibrations and reduces gear rattle, helps in saving the fuel consumption and also improves driving comfort. Figure : Comparison of vibration damping in a conventional drive train to the one with DMF Transmission assistance: As DMF is said to reduce the engine vibrations, it has positive effect on the transmission system as the stress induced will be significantly less compared to a compared drive line increasing the transmission efficiency and cycle life. Crank shaft assistance: In a conventional power train, we know that flywheel and clutch are connected to engine crankshaft rigidly and due to the inertia of the flywheel high reaction forces are developed on the crankshaft. But in case of DMF, the secondary flywheel can be neglected for bending load case as it connected loosely to the primary flywheel by torsional damper and roller bearings which practically dont allow high transferable reactive forces. The primary flywheel is significantly lighter in weight, more elastic in nature compared to conventional flywheel. Battery pack design and selection: The main criteria in battery design and selection depend upon the capacity, the output characteristics based on type of battery pack to be used, cycle life, cost, scope of reusability and whether recyclable on not. The size and weight of the battery pack depends on the capacity requirement. If capacity is high, more will be size and weight of the battery pack. In fact, battery pack design plays a very important role as the performance of the vehicle is dependent on the overall weight of the vehicle. In case battery pack is heavier, this would have direct impact on the power consumed to propel the vehicle which is set to rise with increase in battery weight and will also reduce the operating range of the vehicle. Figure : Typical Battery pack arrangement Electric Motor: Generally AC, DC and PMDC electric motors are used in hybrid vehicle depending upon the requirement and usage. In automotive industry, certain motor specifications are not acceptable due to their inability to meet the specific requirements such as power rating at peak load conditions, continuous power supply, volumetric power density, cost, efficiency, weight, lifetime, level of protection against water and dust. Gear box assembly: In hybrid vehicles, mostly a power splitter device is used which is consists of planetary gear set allowing power flow from two power generating sources to propel the vehicle. The I.C engine is generally connected to Sun gear while electric motor is connected to the planet gear. Clutch: It is found in every vehicle with manual gearbox. Though the use of clutch varies from one hybrid drive train to another depending the gearbox being used as most of the hybrid power trains use automatic transmission which dont require clutch. The main purpose of clutch is to assist the vehicle starting off from stand still position as it compensates for the speed difference between engine and the driveline and slips on to synchronize both. Clutch also used to engage and disengages engine from the transmission while gear shifting takes place. Modelling Approach Procedure of work Power train jerking in hybrid vehicles is majorly due to engine electric motor torque changes during tip in and tips out operations. For investigating the problem of jerking for a hybrid vehicle, certain steps have been laid out for modeling the power train in five different steps which are in below figure 9 to observe and analyze each case individually with root cause: Figure : Modelling Procedure Basic Driveline Equations Engine: The engine output torque is expressed by the driving torque (Te) generated from combustion , friction torque (Tfric,e) and the external load from clutch (Tc) .By Newtons second law of motion, we can achieve the following model: Where Je is the mass of inertia of the engine, is the crank angular acceleration. Clutch: Generally a friction type clutch is installed in vehicles with manual transmission connecting to the engine flywheel and input shaft of the transmission. During clutch engagement if we assume no internal friction, Tc = Tt can be obtained. Then the torque transmitted is function of angular difference (ÃŽÂ ±cs ÃŽÂ ±c) and angular velocity difference ( ) resulting in: Figure : vehicle driveline with corresponding angle and torque labels. Transmission: A transmission consists of a gear set each with a different operating ratio it leading to relation between input and output torque Where Tp is the transmission output and Tfric is the internal friction torque of the transmission. Propeller shaft: The shaft which connects the transmissions output to the final drive unit in which no friction is assumed which gives us Tp = Tf , resulting in model for torque input to final drive Final Drive: final drive can be considered as a final ratio if as for the transmission leading to input and output torque relation Drive Shafts: The shafts which connect wheels to the final drive are called drive shafts. It can be assumed that both the wheels are rotating at same speed ( ). Ignoring the vehicle dynamics, the wheel speed shall be equal to speed of vehicle bodys centre of gravity. Therefore, drive shafts can be modelled as one shaft. Wheels: The forces acting on a vehicle with mass (m) and velocity (v) the longitudinal forces (FL)acting on the vehicle gives Rolling resistance (Rr) = f*m*g and Aerodynamic drag (Ra) =1/2*Af*Cd*à Ã‚ *V2. Where, m=mass of the vehicle, g=gravity constant, f=0.015(co-efficient of rolling resistance), Rr=rolling resistance, Ra=aerodynamic drag, Af=cross sectional area, Cd=coefficient of drag, density (à Ã‚ ), V=velocity. The drive line model can be expressed as a system consisting of rotating lumped inertias, compliances, damping losses, input torque and loads acting due to environmental resistive forces. A simple 2 degree of freedom model (fig 10) is sufficient to show the first torsional mode of vibrations which lead to jerking of vehicle. Figure : Free body diagram of a conventional driveline Where, Teng = engine torque, road load = Tload , e = engine speed, v = vehicle speed, Je = mass moment of inertia, be = viscous friction, r = final drive ratio, Ks CS = drive shafts flexibility, Cw = damper, vehicle inertia = Jv. Hybrid Power train Model As discussed earlier in report, the hybrid power train consists of additional components compared to conventional type which include electric motor, batteries, power electronics which form together the electric drive unit of the vehicle. Engine: Engine in hybrid power train plays a very important role in terms of fuel savings and vehicle assist. An engine model to be used for hybrid power train must be considered for following issues: The engine model must produce desired torque output irrespective of operating conditions. The engines dynamic behaviour leading to torque fluctuations generates drive line vibrations which in turn affects the driver comfort. As engine is not quick enough to respond to control actions implemented externally, the response delay can have significant affect on the vehicles performance. Engine can be modeled in many different ways depending upon the level of complexity required and the availability of parameters which can later be used for validating the inputs. The basic equation of engine model has been already discussed earlier which can be applied for the hybrid power train model also. Electric Motor/ Controller: The electric traction motor and controller consume the power from the onboard energy storage device like battery to provide the power source so as to generate the required torque for vehicle propulsion. The electric motor can also be used as starter/alternator or as a generator to recover energy during braking which can be used to charge batteries. The traction motor model can be described by following equations: Where idr , iqr are d,q axis rotor current respectively; ids ,iqs are d, q axis primary current respectively; Lm, is mutual inductance; Lr , LJ are resolved rotor, stator inductance respectively; P are poles; Rr, Rs are resolved rotor, stator resistance respectively, ohms; Vds Vqs are d, q axis primary voltage respectively, V; ÃŽÂ »dr and ÃŽÂ »qr are d, q axis rotor equivalent flux respectively, V-sec; ÃŽÂ »ds and ÃŽÂ »qs are d,q axis stator equivalent flux respectively, V-sec; à Ã¢â‚¬ °e is synchronous frequency, rps ; à Ã¢â‚¬ °r is rotor frequency, rps; , is rotor acceleration, rps2; Ts is electric motor torque, Nm. The limiting torque of the motor can be expressed by: Where à Ã¢â‚¬ °b, is motor base speed, rpm; à Ã¢â‚¬ °m is mechanical motor speed, rpm; Prated is the rater motor power, hp; Trated is the rated motor torque, Nm; Tm is mechanical motor torque, Nm. In addition to this, equations of motion for DC electric machine are: Where is the torque output of the machine proportional to the armature current, e is the back emf of the machine is proportional to the velocity of the rotor Drive Shaft: The drive shaft plays very important role in the drive train for transmitting the torque and rotation. They are subjected high torsion and shear stresses and therefore must have must have high stiffness. Below shown in the drive modelled using lumped inertias and their corresponding basic equations TDS =KDS (ÃŽÂ ¸T ÃŽÂ ¸W) + CDS (T W) Wheels: The forces acting on a vehicle with mass (m) and velocity (v) the longitudinal forces (Fe)acting on the vehicle gives Stationary model of the vehicle assuming all forces act through the centre of gravity and only in longitudinal direction. Gears: Assuming no losses in transmission the basic equation for gearing is But in reality there are viscous losses, sealing bearings drag contact friction. Losses vary with gear change but can be modelled as a loss torque tl acting on the transmission input shaft there can be shown as: Capacitor: It is device which stores energy an can be modelled by current equation Battery: Batteries are characterized by energy density, C-rating, cycle life, thermal run away and variations in temperature. Table below shows the comparison among different types of batteries with their technical specifications available in the market for HEV applications Property Lead Acid NiMH Lithium Cell Voltage Volts 2 1.2 3.6 Energy Density WH/Kg 30-40 50-80 100-200 Power Density W/Kg 100-200 100-500 500-8000 Maximum Discharge Rate 6 -10C 15C 100C Useful Capacity DOD% 50 50-80 80 Charge Efficiency % 60-80 70-90 ~100 Self Discharge %/Month 3-4 30 2-10 Temperature Range  °C -40 +60 -30 +60 -40 +60 Cycle Life Cycles 600-900 >1000 >2000 Micro-cycle Tolerant Deteriorates Yes Yes Robust (Over/Under Voltage) Yes Yes Needs BMS Cost per kWH  £100  £170  £150 Target A basic battery model might include an open circuit voltage and internal resistance Rc and Rd SOC Calculation: SOCic = initial SOC of the battery (assume 1; fully charged) Ibat = battery current that can be both positive and negative Qbat = battery capacity (Ah), needs converting to A.s for the simulation Simulation Tool Simulation X Simulation X is a multi domain program for modeling and simulation created by ITI GmbH. Some of its main features and capabilities are: Enables high level modelling platform for complex systems. Integrated with CAE design tool Over 30 standard industry specific libraries including automotive. Development of user specific libraries based on standard ones. Object oriented modelling language for simple and efficient modelling. Implementation of user based C code through external sources. Provides interface between various software available in market such as MATLAB/Simulink etc. Analysis tools available in Simulation X are: Transient Simulation: Capable of computing linear and non-linear models in the time domain. Steady State Simulation: Analyzing the models in periodic steady state condition dependent on a specific reference value. Linear System Analysis (Natural frequencies and mode shapes) : Efficiently generates damped and un damped natural frequencies of the complete system , time constants , eigen vectors, oscillations of state variables related to particular eigen frequencies. Linear System Analysis (Input Output Analysis): Enables linearization in the current operating point , analysis, export of state space matrices Modelling in Simulation X The vehicle type selected for the analysis of jerking and its effects is a sport utility vehicle (SUV) powered by a diesel engine shown earlier in figure 6 consisting a conventional diesel engine with crankshaft integrated starter generator (CISG), a DMF, a transmission gear box, a clutch between the transmission and the DMF, differential as a part of conventional power train and high voltage battery pack with power electronics on board as electric drive unit for the vehicle. Creating simulation models for hybrid power train requires various components of power train such as mechanics, hydraulics, electronics and pneumatics including the control aspects involved.

Comparative Essay between La Goulue & Les Girard

The city of lights was all about fun and the nightlife during the 19th century. Fortunately enough, Jules Cheerer and Henry De Toulouse-Ululate were able to perfectly capture the essence of Parish's blooming nightlife through their posters. Generally speaking, both posters are the same style, however, each artist was able to create different visual effects and atmospheric perspective using their own aesthetic sense. In this situation, both posters are advertising to the viewer the exhilarating nightlife n Parisian cabarets back in the 19th century.Yet, Latter's poster managed to capture a distinctive and sensual atmosphere compared to Cheerer's joyful atmosphere. Louise Weber, the female dancer In Latter's poster, can be seen performing the provocative cancan dance, which exposes her undergarments as she kicks her legs. The audience in the background looks as if they are interacting with the dancer even if they are Just watching her. Meanwhile, the dancers in Cheerer's poster are che erfully dancing with their hands in the air with no audience around.Even though the figures depicted in both posters are 2-dimensional, Latter's poster has more depth because of the way he places his figures through out different layers. The male dancer and the unusual yellow shape on the left dominate the foreground. The main focus of this image is the female figure placed in the center and between the foreground and background. The contrasting silhouettes behind her further highlight the focus on her. The figure in the middle of Cheerer's poster is wearing a vibrant red dress, which easily catches the viewer's eye even though two lively nagging men overlap her.The two male figures are framing the woman in the middle with their legs. The soft, textured, and plain background contrast with the red and black of the flat figures and brings them out. There Is minimal use of shading, but instead, crisp black lines outline the figures, giving the illustration a flat look. Nothing seems to have a definite structure since there is no sense of strong, angular and straight lines but instead, the lines look more organic as seen with the text and figures.This poster might look a bit symmetrical but the artist drew both men who re facing each other with slight differences to add more to the unstructured and organic feel of the Image. One of the main features of Less Gerard is how the text and illustrations can be seen interacting with one another. One figure looks like as if he is standing on the letter G while the other figure has his legs passing through the letter o. The small 3rd figure relationship can be seen between the text and illustrations in the way they were rendered. The have a long pointed form.For example, the tip â€Å"A† in â€Å"Less Gerard mimics the man's foot. The text was customized by the artist hence the similarities between the illustrations and the text. Ululate uses several different fonts in his poster. In this case, Latter's font does n ot interact with the figures in the poster and does not look like it was drawn by hand but instead is placed on top of the figures with low opacity. The other text that is dominating the top part of the poster has more bold colors and is outlined in black, which balances out the heavy image filled bottom part of the poster.Since Ululate was influenced by Cheerer, the similarities in their work. Ululate also chose to work using the same medium, lithography, which is why their work has strong bold colors. There is no doubt that both artists were influenced by the Japanese style, as it is evident in most of their work. The flat planes of color, 2-dimensional figures, and crisp black contour lines are elements from the Kikuyu-e woodblock print style. Latter's composition of figures overlapping each other is also derived from the Japanese art style. On the other hand, the composition in Cheerer's poster is almost symmetrical.This shows us that even though Ululate was influenced by Cheere r, Ululate had a better understanding of Japanese art and was able to fuse that with his own work in order to produce his own style. In conclusion, the posters may seem to be very similar in style; nevertheless, slight differences between those posters do exist and those differences showcase each artist's unique touch. This demonstrates the endless cycle of an artist influencing another artist who in turn modifies and develops what he learned in order to develop his own style and that may even result in a whole new art movement.

New Step by Step Roadmap for Term Paper Helper

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Essay Confused Values in The Necklace - 670 Words

Confused Values in The Necklacenbsp;nbsp; To some people, class distinction is very important. Usually we think of class distinction as being of most importance to the higher classes, those who can afford to look down on the rest of the world, but sometimes this concept is of most importance to those who occupy the lower steps of society. These are the people who are stuck where they are, but feel that their true places are at the top of the social ladder. The character of Mme. Loisel in Guy de Moupassants story The Necklace is one such person. She is of the lower classes, but she holds a romantic idea of what life at the top consists of, and it is one of these ideas that eventually gets her into trouble. The story starts out†¦show more content†¦The story even points out that most women of her status are content with what they have, but she is not. Mme. Loisel dreams of living is world full of exotic luxuries, liveried servants and rich banquets. She wishes for a wonderful home full of expensive, ornamental things and closets of fine dresses and glittering jewels. Her idea of the life of an upper class woman is very romanticized and sounds like it comes directly out of a cheap novel. She wishes she was upper class so that she could have one of the coquettish perfumed boudoirs made for talks at five oclock with intimate friends (p. 758). This is a sweet idea, but the chances of it being very realistic (even among the richest people) are not very good. These ideas are the ones that led to her and her husbands downfall. M. and Mme Loisel fell down the social ladder because she believed that the necklace she borrowed was made of real diamonds. Mme. Loisel believed that any piece of jewelry owned by someone as high in society as her friend Mme. Forestier must be made of real jewels. This assumption was made because she thought that if one was that high on the social ladder on would only bother to buy the best, but this is untrue. People, no matter what their status, are never too rich to not buy something they like simply because it isnt made of real diamonds. Mme. Loisel spent so much time convincing herself that something only has worth if it is expensive that sheShow MoreRelatedThings Are Not Always What they Seem in The Necklace by Guy de Maupassant981 Words   |  4 Pagesbut can hide major differences between the two. What we believe about our world, both on a material and philosophical level, can be far from the truth. Nowher e is this fact more evident than in the classic short story, The Necklace, written by Guy de Maupassant. The Necklace successfully shows that ones perception and reality often are not even close to being the same. 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