其编程范围涵盖了人工智能,图形,网络,工具,游戏可玩性等各个方面。
The programming disciplines include artificial intelligence, graphics, network, tools, gameplay, and is pretty much limitless.
下面的部分将介绍人工任务的编程模型。
The following section describes the programming model for human tasks.
本文首先介绍编程模型,然后讨论如何为人工任务建模授权规则,应用哪些缺省值,以及如何继承授权。
The programming model is introduced first, followed by a discussion on how you can model authorization rules for human tasks, what defaults apply, and how authorization is inherited.
通过使用WebSphereIntegrationDeveloper,您能够完成服务编程,然后为人工任务、运行测试和配置您的SOA解决方案产生一个UI。
By using WebSphere Integration Developer, you can complete the services programming, and then generate a UI for the human tasks, run tests, and deploy your SOA solution.
例如,WebSphereProcessServer还支持SCA编程模型,并引入了许多组件类型,如业务流程和人工任务。
For example, WebSphere process Server also supports the SCA programming model and introduces a large set of component types, like business processes and human tasks.
您现在可以在测试客户端中创建人工任务模拟器,或者创建测试用例,测试用例可以是手动的或采用编程形式。
You can now create a human task emulator in the test client or a test case, which can be either manual or programmatic.
机器人驾驶的一个最为奇异的例子来自于这家位于加州的搜索引擎巨人,他们正在用其高超的编程能力来帮助研发用于汽车的人工智能。
One of the strangest examples of robotic driving comes from the search engine giant, based in California, who is using their programming prowess to help build AI for cars.
因此,许多古典方法认为人工智能应该由类似极大极小树,预编程数据库和预编代码组成。
So, much of the classical approach to AI consists of things like minimax trees, preprogrammed databases, and prewritten code.
尽管围棋程序的开发如此之难,编程人员越发产生了浓厚的兴趣,他们必须在人工智能的基础研究上有所突破。
Nonetheless, the allure of computer Go incereases as the difficulties it poses encourages programmers to advance basic work in artificial intelligence.
在计算机科学中,编程语言是用来编写可被计算机运行的一系列指令(计算机程序)的人工语言。
Programming languages, in computer science, are the artificial languages used to write a sequence of instructions (a computer program) that can be run by a computer.
他们开始一起学人工智能语言,偶尔找到些编程工作。
They learned an artificial-intelligence language together and found odd jobs as programmers.
Paro是个人工智能非常有限的机器人,例如,它可以被编程为对人类触摸做出反应,而且它的反应是一如既往的好。
Paro is a robot with very narrow artificial intelligence, i. e. it can be programmed to respond to human touch and it does so consistently and well.
人工智能既然是人类编程的产物,必然能被打败。
Artificial intelligence is programmed by humans, and thus can still be defeated.
通过将人工生命概念应用于现实生活问题,我们可以对计算机生成的解决方案编程,以在其有能力很好地完成所要求任务的基础上为生存而竞争。
By applying artificial life concepts to real-life problems, we can program computer-generated solutions to compete for survival based on their capability to perform a desired task well.
简单介绍了可编程控制器的功能特点及绝缘耐压人工测试中存在的问题,提出了一种利用可编程控制器来实现自动测试的系统改造方案。
This paper introduces the functions of Programmable Logic Controller and some problems in insulation and voltage resistance test, and then it presents a system reconstruction project.
工业机器人在激光柔性加工中的应用已日益广泛,但通常是在加工现场通过人工在线示教的方式来编程的,这是一件非常枯燥和单调的工作。
In the process of teaching, the robot is manually moved to a number of desired of positions, and the robot control system stores the coordinates of the positions.
探讨了MATLAB环境下实现人工神经网络BP算法的编程方法及方法改进比较的例子,得到了良好的结果。
Programming which realizes the BP algorithm is put forward finally in the MATLAB environment, and the result comparing to improving method is satisfactory.
约翰·麦卡锡(1972-)被认为是“父亲”,他发明了人工智能字“爱”和LISP的计算机编程语言,许多人工智能的开发利用今天。
John McCarthy (1972 -) is thought as the "Father" of A. I. he invented the word "A. I." and the LISP computer programming language that many a.
上述研究表明:从材料的制备与加工工艺、数控编程方法、加工成本等因素考虑,氧化铝陶瓷人工关节股骨头的数控加工技术能适应产业化的要求。
From above study, it would be concluded that the NC machining can meet the request of industrialization of femoral head prosthesis for alumina ceramic.
焊缝位姿信息的提取是实现图形环境下离线编程的关键,在获得待焊工件的焊缝位姿信息后,才能进行弧焊机器人工作路径规划。
Extracting pose information of welds is key technology of off-line programming in graphic environment. Path planning of arc welding robot can be made after pose information of welds is extracted.
虽然人工智能整合处理信息十分强大,但超不出人类编程时赋予的能力。
While AI's ability to synthesize and process information is impressive, it can only work as well as it was programmed to.
如“大蓝”(BigBlue)一类国际象棋对弈电脑是由人类直接编程控制的,而“阿尔法”是通过人工智能来学习如何行棋,能够自我做出决策。
Whereas a chess-playing computer like Big Blue was programmed directly by humans, AlphaGo used AI to teach itself about how to play Go and then make its own decisions.
如“大蓝”(BigBlue)一类国际象棋对弈电脑是由人类直接编程控制的,而“阿尔法”是通过人工智能来学习如何行棋,能够自我做出决策。
Whereas a chess-playing computer like Big Blue was programmed directly by humans, AlphaGo used AI to teach itself about how to play Go and then make its own decisions.
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