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中兴通讯“中兴捧月算法精英挑战赛”之技术大咖巡讲活动
时间:2017年4月18日 下午14:30
地点:电子科大清水河校区科C 216
嘉宾:宁东方,中兴通讯无线研究院系统架构师
不限专业,不限学历,欢迎电子科大学子前来参加!
聆听大咖分享,掌握大赛资讯,了解行业前沿!到场即有好礼相送,现场更会抽取幸运同学送出手机大礼!
凡报名参加并提交有效作品的18届学生,18届校园招聘免笔试!
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大赛概况
2017年中兴捧月神算师算法精英挑战赛(Fantastic Algorithm)是由中兴通讯面向全球大学生举办的校园赛事,该赛事在2009年首次举办,致力于打造行业最大规模校园赛事活动,至今已有8年历史。大赛致力于培养学生创新能力、团队合作能力、建模编程实践能力,挖掘全球校园优秀算法和程序设计精英(即“神算师”)。
本届算法精英挑战赛以“天算不如人算”为口号,分为线上初赛和线下总决赛两轮,设置四大算法方向(香农派、迪杰斯特拉派、傅里叶派和阿尔法勒克斯特等“四大门派”,详见 “中兴通讯招聘”微信公众号或大赛官网)供参赛者根据兴趣自由选择。通过发布时下最炙手可热的一系列算法研究课题,让参赛者充分感受算法改变世界和链接未来的魅力。
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赛程安排
(1) 4月6日 大赛报名启动;
(2) 4月20日 赛题发布;
(3) 5月12日 赛题提交截止;
(4) 5月下旬 初赛结果公布;
(5) 6月中旬 终极决赛。
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参赛方式
(1)面向对象:
国内外全日制在校大学生,不论出身,只要热爱算法建模或热爱编程、代码均可参赛。
(2)参赛要求:
A.根据所选门派及方向要求决定单人成队参赛还是多人组队参赛;
B.多人组队参赛最多不超过3人,需指定队长1名;
C.多人组队参赛1人提交作品视为整个团队作品已提交,大赛期间不允许变更队员;
D.每名参赛选手只能选择一个门派一支队伍参赛。
(3)报名方式:
关注“中兴通讯招聘”微信公众号,登陆https://challenge.zte.net大赛官网进行报名.
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奖励设置
特等奖奖金25万元,蓝剑直通卡,安居房一套,豪华签约特薪包,签订special offer
一等奖奖金10万元,蓝剑直通卡或蓝剑终试直通卡,土豪签约特薪包,签订special offer,实习机会
二等奖奖金5万元,蓝剑终试直通卡,签订special offer,实习机会
三等奖奖金2万元,蓝剑终试直通卡,签订special offer,实习机会
决赛优胜奖
(决赛未获奖选手)ZTE blade最新手机一部,进入终试洽谈,实习机会
区域优胜奖
(每个区域奖品)中兴捧月纪念奖品,进入终试洽谈,实习机会
参赛奖
(参赛且提交有效作品者)2018届校园招聘免笔试,实习机会
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后青春的诗系列之“放飞理想,拥抱春天“活动
四月的春风吹,是放风筝的好季节
活动主题:摸不到的颜色是否叫做彩虹,看不见的拥抱是否叫做微风,飞翔的寄托是否叫做风筝;
活动时间:2017年4月17日下午1点;
活动地点:图书馆门前草坪;
主办单位:自动化工程学院研究生会;
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通信研会+通信论坛 学术讲座
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时间:2017年4月17日上午10:30
地点:科研楼B302;
主讲人:Wing-Kin (Ken) Ma
主题:Multiuser MISO Downlink Transceiver Optimization: Beyond Beamforming and Perfect Channel State Information
摘要:
In the multiuser MIMO scenario, transceiver design and optimization techniques have been known to be very powerful in enhancing system throughput and efficiency. This talk will first focus on physical-layer MISO multicasting, or common information broadcast to multiple users. In this context, a popular approach is to assume the transmit beamforming structure and design the beamformer via semidefinite relaxation (SDR). While this approach is effective for not too many number of users, there are few works that do the following rethinking: Can we obtain better designs by altering the physical-layer transceiver architecture itself? We will introduce a novel transceiver strategy called stochastic beamforming (SBF). SBF employs a random-in-time philosophy to circumvent the rank-one approximation issue inherent in SDR-based beamforming. By both simulations and theoretical analysis, we will show that SBF outperforms SDR-based beamforming when the number of users is large.
We will also describe another problem concerning robust unicast beamforming. Curiously, simulation results have suggested that SDR admits a rank-one solution to the aforementioned problem---or solves the problem optimally---in most instances. This gives rise to a fundamentally important question, namely, whether we can theoretically identify conditions under which the robust problem admits a rank-one solution. A latest theoretical breakthrough by the speakers and his collaborators will be described.
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时间: 2017年4月17日下午15:00
地点:科研楼B108;
主讲人:李孝峰(教授/青年千人,苏州大学光电学院副院长)
主题:微纳光伏与热电子光电转换技术
摘要:
The profound light-matter interactions optoelectronic and thermodynamic as well as multi-physical responses of photovoltaic devices play a significant role in solar cell designs. In this talk, I will introduce our recent works in light-trapping, photoconversion-improvement, as well as the profound simulation technique of nanostructured solar cells. Moreover, I will present our recent studies on the design of purely planar configurations for hot-electron photodetection. We design the multilayered planar configuration composed by one-dimensional dielectric photonic and metallic hot-electron collection components, so that the so-called Tamm plasmons can be excited to harness the incident photon energy in an efficient way. In addition, a detailed optical and electrical design and performance characterization will be presented, and the fabrication and performance evaluation of the nanostructured systems for solar energy harvesting will be introduced as well.
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时间:2017年4月19日下午16:00
地点:科研楼B302;
主讲人:Moshe Zukerman
主题:Telecommunications networks - from modeling to optimization(Part I) PhD/MSc Programmes in Electronic Engineering at City University of Hong Kong
摘要:
Telecommunications network models have been developed and studied for over a century.They have been applied to planning and design of a wide range of telecommunication systems and networks. The general aim has been to minimize cost subject to meeting quality of service and reliability requirements. This talk will address three distinct networking research topics. The first is how to design a multilayer network model that considers many practical aspects, including: realistically sized networks, layered architecture, and stochastic traffic composed of heavy tailed flows. We aim to provide validated solutions for optimal traffic engineering, network design and evolution prediction. The second is on how to optimize a topology of cabled networks considering path planning of optical fiber cables and trading off cost savings and network resilience. This research was motivated by the 2006 Hengchun earthquake near the south coast of Taiwan that caused disruption to Internet services in many Asian countries. This disruption was caused as a result of damage to several underseacables located close to each other in an earthquake prone area. The aim is to optimize the laying path of cables considering a range of factors including: cost, risk, geography, and ecology. Since there are multiple stakeholders with different objectives, a multi-objective optimization is used.
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时间: 2017年4月19日下午16:30
地点:科研楼B302;
主讲人:Eric W. M. Wong
主题:Telecommunications networks - from modeling to optimization(Part II) PhD/MSc Programmes in Electronic Engineering at City University of Hong Kong
摘要:
Following the talk of "Telecommunications networks - from modeling to optimization (I)", we will discuss the third topic which is on design and dimensioning of mobile networks with special focus on reduction of energy consumption. This is a collaborative work with SmarTone Mobile Communications Ltd, a leading mobile network operator in Hong Kong. The project's aim is to develop software tools that will provide mobile network operators with means to optimize their network design in the way that reduces network operational cost, saves energy consumption and, in turn, lowers cost to customers. This project will gain useful insights for developing the future energy-efficient 5G mobile network.
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Tap4Fun技术分享交流会
不知道你是否记得在战地风暴中你指挥100多兵种,配合数十种战术技能实现多种自由组合战法攻城略地,尽显统帅才华;在galaxy Legend中控制基地在充满神秘阴谋和机遇的世界中积蓄力量,施展策略来镇压胆敢反抗的敌人,书写英雄的传奇;在Brutal Age(野蛮时代)中作为原始部落的首领,一步步通过联盟或者战争成为整个服务器至高无上的大酋长的坎坷征途。
当我们徜徉在游戏的海洋中,殊不知在我们的欢乐背后,有那么一群默默地在我们不知道的地方,为了我们的每一次攻城略地的愉悦,而努力的人。这就是Tap4fun,一个全球著名的顶尖手游公司。
喜欢手游的同学们,
你们想知道一个顶尖手游的推出过程吗?
你们想了解最新手游技术的现状和趋势吗?
你们想毕业后为自己喜爱的手游产业贡献自己的力量,拿到高薪吗?
来吧,4月17日,Tap4Fun技术分享交流会欢迎你。
时间:4月17日 19:30
地点:品学楼A107
人物:电子科技大学研究生
活动类型:自主
主办方:计算机学院研究生会
机械电子工程学院研究生会
可盖学术章!
这么多活动,一定有一款你喜欢!
责任编辑:懒蛋蛋儿
审稿人:喵了个咪
