Anhui Jianghuai Automobile Co.

Hefei, China

Anhui Jianghuai Automobile Co.

Hefei, China

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Liu H.,Harbin Engineering University | Deng R.,AnHui Jianghuai Automobile Co. | Zhang L.,Harbin Engineering University
2016 IEEE International Conference on Information and Automation, IEEE ICIA 2016 | Year: 2016

A hybrid optimization algorithm, including an improved bacterial foraging algorithm and particle swarm optimization with strong global searching ability and quick local convergence ability, is applied to optimize the route of ship collision avoidance. The ship collision avoidance simulation is done based on MATLAB simulation environment by means of a hybrid optimization algorithm in conjunction with a collision risk model and optimization function. And then, ship collision risk is analyzed; optimization collision avoidance parameters including avoidance collision angle, reorientation angle and time parameters are chosen and displayed, route of ship collision avoidance is generated. By summarizing the simulation diagram and the results of the analysis are effective and feasible. This research proposes a new idea for intelligent avoidance collision. © 2016 IEEE.


Cui H.-W.,Shanghai University | Cui H.-W.,National Sun Yat - sen University | Li D.-S.,Shanghai University | Li D.-S.,Shanghai Micro Electronics Equipment Co. | And 2 more authors.
Electronic Materials Letters | Year: 2013

To satisfy the high electrical and thermal conductivity required for the continuous development of electronic products, nano hexagonal boron nitride (BN) particles and nano cubic silicon carbide (SiC) particles were added into electrically conductive adhesives (ECAs) to improve the thermal conductivity. BN and SiC had little negative effect on the electrical conductivity, but improved the thermal conductivity significantly. When their content was 1. 5 wt. %, the thermal conductivity at 100°C, 150°C and 200°C was increased by 71% (100°C), 78% (150°C) and 70% (200°C), and 114% (100°C), 110% (150°C) and 98% (200°C) respectively for BN and SiC comparing with those of the ECAs with no thermal conductive fillers. This method is simple, easy to do, and can be used practically in electronic packaging. © 2013 The Korean Institute of Metals and Materials and Springer Science+Business Media Dordrecht.


PubMed | CAS Hefei Institutes of Physical Science, Anhui Jianghuai Automobile Co. and Anhui Agricultural University
Type: | Journal: Scientific reports | Year: 2017

This study reported an immediate approach for the degradation of three antibiotic (amoxicillin, ofloxacin, and cefradine) residues in medical intravenous infusion bottles (MIIBs) using high energy electron beam (HEEB) irradiation. The effects of irradiation doses, initial concentrations, initial pH, and scavengers of active radicals on the degradation of three antibiotic residues (ARs) were investigated, and the results displayed that 97.02%, 97.61% and 96.87% of amoxicillin, ofloxacin, and cefradine residues could be degraded in situ through HEEB irradiation respectively. Fourier transform infrared spectroscopy (FTIR) and high performance liquid chromatography-mass spectrometry (HPLC-MS) analysis demonstrated that ARs were mainly decomposed into inorganic ions and alkanes. Typically, the detailed degradation mechanism of ARs was also investigated, and the dominant active particle inducing the degradation of antibiotics during the HEEB irradiation process was demonstrated to be hydroxyl radical.


« Advanced Biofuels USA receives USDA grant for feasibility study of eastern shore energy beet-to-jetfuel project | Main | Exascale Computing Project (ECP) announces $39.8M in first-round application development awards » Volkswagen AG and Anhui Jianghuai Automobile Co., Ltd. (JAC) signed a Memorandum of Understanding (MoU) in Wolfsburg to define the next phase of negotiations between the two companies in order to achieve long-term cooperation in the joint development of all-electric vehicles in China. According to the MoU the parties intend to enter into discussions to evaluate the perspectives and feasibility of a new joint venture company focusing on new energy vehicles (NEV), to carry out full scope cooperation in areas including research and development, manufacture, sales and mobility services in the field of NEV and parts in order to improve fuel efficiency. The top priority will be to develop zero-emission mobility solutions. As we aim to be at the forefront of e-mobility, Volkswagen Group is looking forward to explore all options to set up a close and mutually beneficial partnership with JAC. We believe this cooperation would not only benefit our two organizations, but would also be of great value to our customers, a sound environment and the Chinese society in general. —Matthias Müller, Chairman of the Board of Management of Volkswagen AG. We look forward to a full scope cooperation together with Volkswagen Group, focus on new energy vehicles, to provide Chinese consumers with highly cost-effective battery-powered electric vehicle (BEV) products that promote the development of the Chinese new energy vehicle sector as well as the Chinese auto industry’s transformation and upgrading. The intended cooperation between JAC and Volkswagen Group can be called a ‘Creating Together’ model, which embodies mutual benefit and a win-win situation. We hope to develop this cooperation into a brand new business model during the process of Chinese auto industry’s opening up. —An Jin, Chairman of the Anhui Jianghuai Automobile Co., Ltd As part of its comprehensive new Group Strategy "Together – Strategy 2025" Volkswagen is also intensifying efforts for sustainable mobility worldwide. The Group will be launching a broad-based initiative for electro-mobility and intends to develop more than 30 new, purely battery-powered electric vehicles (BEVs) over the next ten years. Anhui Jianghuai Automobile Co., Ltd (JAC) is a comprehensive automobile company encompassing R&D, production, sales and service and other businesses related to the production and sale of commercial and passenger vehicles, including powertrains. It has two vehicle brands, “Jianghuai” and “Ankai”. JAC delivered 333,639 vehicles and chassis in the first six months of 2016 (+14.15%), with new energy vehicle sales increased massively compared with last year (+261%), while SUV sales maintained stable growth (+30%). JAC’s main products include: heavy, medium, light and miniature trucks, multi-function commercial vehicles, SUVs, sedans, buses, and core components such as chassis, gearboxes, engines and axle assemblies.


Chen Q.,University of Electronic Science and Technology of China | Li M.,Anhui Jianghuai Automobile Co.
2013 Joint Conference of International Conference on Computational Problem-Solving and International High Speed Intelligent Communication Forum, ICCP and HSIC 2013 | Year: 2013

Gardner algorithm is a simple and effective bit synchronization scheme. Many modified or improved Gardner algorithms have been studied and proposed. However, these algorithms pay little attention to carrier frequency error. In this paper, modified Gardner algorithms in high-order quadrature amplitude modulation (QAM) system are proposed, which are able to solve the traditional timing error detector (TED) problem and also correct the carrier frequency error. Simulation results show the feasibility and stability of the proposed algorithms. © 2013 IEEE.


Ma L.,Anhui Jianghuai Automobile Co. | Yan F.,Anhui Jianghuai Automobile Co.
Lecture Notes in Electrical Engineering | Year: 2013

This paper mainly introduces a harness automobile design case, about a heavy truck small lights power system and the distribution about the improvement of the specific case. Detailed description of the small lights system load power, loop wire diameter, the status quo power distribution structure survey, data calculation and analysis to identify the problems and then propose a variety of improvement programs, through the production process costs, resource requirements, the process of using the logic implementation, security, reliability, design concerns in five trade-off for the program to determine, by experimental verification to ensure that the program improved results. Elaborate on their understanding of the automotive wiring harness design, harness design aim for other vehicles to provide references. Specific theoretical calculations about each loop of wire did not begin due to the relationship of the papers focus. © 2013 Springer-Verlag.


Chen J.,Anhui Jianghuai Automobile Co.
Lecture Notes in Electrical Engineering | Year: 2013

The heavy phenomenon about the steering system for 6 x 4 dumpers is presented. Checking computations steering system parameter on theory, it can find out the steering system performance cannot be improved effectively according to the theory parameters. At the same time, the comparative analysis is carried out with the same type of dumpers which are reflected fairly good on the marketplace. The main reason is found out about the steering heavy on the dumpers. It carries out an optimization on the dumper's system parameters. The test results show that the steering performance of the dumpers is improved obviously, and better than the same type of competitor's dumpers. Heavy vehicles is generally used to power steering system at home and abroad, however, in the actual operation process, steering system often appear to heavy phenomenon, especially heavy dump trucks, and because of the severe overloading, steering heavy show particularly outstanding phenomenon. Steering heavy will cause the vehicle steering difficult, add to the driver fatigue, influence the safe driving, reduce automobile driving smooth and stability, and directly affect the driver's personal safety, so it must be ruled out [1]. © Springer-Verlag 2013.


Kong H.,Hefei University of Technology | Ge Q.,Anhui Jianghuai Automobile Co.
Applied Mechanics and Materials | Year: 2012

The control principle of VCU (Vehicle Control Unit) was described in this paper. Both hardware and software based on MC9S12XET256 microcontroller were designed using modular design method. Fuzzy control method was used for the study of recovery of braking energy. Through the design of software and hardware, vehicle control functions are realized, including real-time data acquisition, data communication, braking energy recovery and so on. © (2012) Trans Tech Publications, Switzerland.


Trademark
Anhui Jianghuai Automobile Co. | Date: 2013-04-11

Automobile chassis; Automobiles; Buses; Cars; Chassis for motor vehicles; Electric cars; Fork lift trucks; Motor cycles; Trucks; Vans.


Jac

Trademark
Anhui Jianghuai Automobile Co. | Date: 2016-04-30

Automobiles; Buses; Electric cars; Fork lift trucks; Motor vehicles, namely, automobiles, trucks, vans, sport utility vehicles and structural parts therefor; Racing cars; Racing motor cars; Trucks; Undercarriages for vehicles; Vans.

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