CN102902477A - Touch screen based power system simulation control method - Google Patents

Touch screen based power system simulation control method Download PDF

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Publication number
CN102902477A
CN102902477A CN201210306322XA CN201210306322A CN102902477A CN 102902477 A CN102902477 A CN 102902477A CN 201210306322X A CN201210306322X A CN 201210306322XA CN 201210306322 A CN201210306322 A CN 201210306322A CN 102902477 A CN102902477 A CN 102902477A
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China
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signal
touch
mouse
touch screen
system simulation
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CN201210306322XA
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Chinese (zh)
Inventor
田芳
徐兴伟
李群
金元
孙永峰
严剑峰
李泽宇
马新
孟令愚
李亚楼
裘微江
侯凯元
杨宁
张亮
安宁
赵敏
徐得超
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中国电力科学研究院
东北电网有限公司
国家电网公司
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Priority to CN201210306322XA priority Critical patent/CN102902477A/en
Publication of CN102902477A publication Critical patent/CN102902477A/en

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Abstract

The invention provides a touch screen based power system simulation control method comprising the steps of clicking the touch screen to produce touch signals, converting the touch signals into mouse signals by utilizing a signal converter and controlling the human-computer interface by utilizing the mouse signals. The method provided by the invention has the advantages that the power grid can be rapidly and effectively intervened, so that the stable operation of the power grid is guaranteed; and the setting of simulation parameters is realized through the touch screen instead of a mouse, so that great convenience is brought to the power system simulating calculation.

Description

一种基于触摸屏的电力系统仿真控制方法 A power control system simulation method based on the touchscreen

技术领域 FIELD

[0001] 本发明属于电力系统仿真领域,具体涉及一种基于触摸屏的电力系统仿真控制方法。 [0001] The present invention belongs to the field of power system simulation, the simulation system particularly relates to a method for controlling the power based on a touch screen.

背景技术 Background technique

[0002] 由于实际电力系统运行的复杂性和不可中断性,在其基础上直接进行试验和研究是不太现实的,因此必需借助物理模拟或计算机仿真等方式。 [0002] Since the actual power system complexity and non-disruptive, test and research on its basis directly is not practical, it is necessary, or by means of a physical simulation computer simulation mode. 电力系统用计算机进行仿真已经有几十年的历史了,早期的电力规模比较小,一个人在一台机器上就可以独立完成电网模型的维护和仿真计算。 Power system using computer simulations have decades of history, the early power relatively small size, a maintenance person and grid simulation model can be done independently on a single machine. 随着跨区互联电网的形成和规模的不断扩大,电网的运行特性和调度控制越来越复杂,如何快速有效的对电网进行干预,保证电网稳定运行已成为关键问题。 With the continuous expansion of the scale of the formation and trans-regional interconnected power grid, power grid scheduling control and operating characteristics of more complex, how quickly and effectively intervene on the grid, to ensure the stable operation of the power grid has become a key issue. [0003] 触摸屏作为多媒体输入设备,现已被广泛应用于工业、医疗、通信领域的控制、信息查询及其他方面。 [0003] The multimedia input device as a touch screen, has been widely used to control industrial, medical, communications, information, query, and other aspects. 因为触摸屏比键盘、鼠标等使用起来更方便和直接,所以触摸式查询系统在商场、宾馆、火车站和飞机场等交通枢纽、金融机构、体育场馆与会展场馆中应用非常普遍,提供了人与计算机最简单、最直接的输入方式。 Because the touch screen than the keyboard, mouse, and other direct and easier to use, so the touch inquiry system in shopping malls, hotels, train stations and airports and other transportation hubs, financial institutions, stadiums and convention venues very common, providing people with computer simplest, most direct input. 将触摸屏用于电力系统仿真触控,能更快速、便捷的对电网仿真进行干预,从而能更真实有效的再现电网状态及变化。 The touch screen for touch power system simulation, can more quickly and easily on the grid simulation intervention, which can be more real and effective reproduction of state power and change.

发明内容 SUMMARY

[0004] 为了提高操作的便利性,本发明提供一种基于触摸屏的电力系统仿真控制方法,以电力系统仿真软件为基础,基于触摸屏及信号转换器,将触摸信号转化为鼠标信号,与仿真软件中的人机界面进行交互,快速有效的干预电网。 [0004] In order to improve the ease of operation, the present invention provides an electric power system simulation control method for a touch-screen based, to power system simulation software-based, based on the touch screen and signal converter, the touch signal into mouse signals, and simulation software the man-machine interface to interact, fast and effective intervention grid.

[0005] 为了实现上述目的,本发明提供如下技术方案: [0005] To achieve the above object, the present invention provides the following technical solutions:

[0006] 一种基于触摸屏的电力系统仿真控制方法,所述方法包括以下步骤: [0006] A simulation control system, the method based on a touch screen power includes the steps of:

[0007] ( I)点击所述触摸屏产生触摸信号; [0007] (I) Click on the touchscreen touch signal is generated;

[0008] (2)信号转换器将所述触摸信号转化为鼠标信号; [0008] (2) said touch signal converter signal into mouse signals;

[0009] (3)所述鼠标信号控制人机界面。 [0009] The (3) mouse signals to control the display unit.

[0010] 所述鼠标信号对应的鼠标操作有:鼠标左键按下,鼠标左键按下并移动,鼠标右键按下,鼠标右键按下并移动,滚轮向下滚动,滚轮向上滚动。 [0010] The signal corresponding to the mouse operation with a mouse: mouse button pressed, press the left mouse button and move the right mouse button is pressed, the right mouse button is pressed and moved down the scroll wheel, the wheel rolling up.

[0011] 所述触摸信号为单点触到所述触摸屏,则产生鼠标左键按下的信号。 [0011] The touch signal is a single-point touch of the touch screen, the mouse button pressed to generate a signal.

[0012] 所述触摸信号为单点触到所述触摸屏并改变触点位置,则产生鼠标左键按下并移动鼠标位置的信号。 [0012] The touch signal is a single-point touch and the touch screen to change the contact position, is generated by pressing the left mouse button and moving the mouse position signal.

[0013] 所述触摸信号为单点触到所述触摸屏并保持位置不变,则产生鼠标右键按下的信号。 [0013] The signal is a single-touch touch screen and the touch position remains unchanged, a signal is generated right mouse button depressed.

[0014] 所述触摸信号为单点触到所述触摸屏并保持一定时间的位置不变,再改变触点位置,则产生鼠标右键按下并移动鼠标位置的信号。 [0014] The signal is a single-touch touch screen and the touch position remains unchanged for some time, and then change the contact position, is generated by pressing the right mouse button and moving the mouse position signal.

[0015] 所述触摸信号为两点触到所述触摸屏并缩小两点之间的距离,则产生鼠标的滚轮向上滚动的信号。 [0015] The touch signal is a two-point touch screen and reduce the distance between two points, the upward scroll wheel of the mouse to generate a signal touched.

[0016] 所述触摸信号为两点触到所述触摸屏并扩大两点之间的距离,则产生鼠标滚轮向下滚动的信号。 [0016] The touch signal is a two-point touches the touch screen and increase the distance between two points, is generated mouse wheel down signal.

[0017] 与现有技术相比,本发明的有益效果在于:快速有效的干预电网,保证电网稳定运行;通过触摸屏代替鼠标实现模拟参数的设置,为电力系统仿真计算提供很大的便利性。 [0017] Compared with the prior art, the beneficial effects of the present invention is characterized in: rapid and efficient intervention grid, ensure the stable operation grid; achieved through the touch screen instead of a mouse simulation parameters set for the calculation of power system simulation provides great convenience.

附图说明 BRIEF DESCRIPTION

[0018] 图I是一种基于触摸屏的电力系统仿真控制方法的触摸控制示意图; [0018] FIG. I is a touch-based method for controlling a power system simulation touchscreen control schematic;

[0019] 图2是触摸信号转化为鼠标左键按下信号示意图; [0019] FIG. 2 is a touch signals into the left mouse button pressed schematic signal;

[0020] 图3是触摸信号转化为鼠标左键按下并平移信号示意图; [0021] 图4是触摸信号转化为鼠标右键按下信号示意图; [0020] FIG. 3 is converted into a touch signal and press the left mouse button signal schematic translation; [0021] FIG. 4 is a schematic view of a touch signal into a signal for the right mouse button is pressed;

[0022] 图5是触摸信号转化为鼠标右键按下并平移信号示意图; [0022] FIG. 5 is converted into a touch signal and the right mouse button press signal schematic translation;

[0023]图6是触摸信号转化为鼠标滚轮向下滚动信号示意图; [0023] FIG. 6 is a touch signals into signals schematic down scrolls the mouse wheel;

[0024] 图7是触摸信号转化为鼠标滚轮向上滚动信号示意图。 [0024] FIG. 7 is a touch signals into a mouse wheel up signal. FIG.

具体实施方式 Detailed ways

[0025] 下面结合附图对本发明做进一步补充说明。 [0025] The present invention will be further described in conjunction with the accompanying drawings supplement.

[0026] 如图I所示,一种基于触摸屏的电力系统仿真控制方法,所述方法包括以下步骤: [0026] FIG I, the control system simulation, the method based on a touch screen power includes the steps of:

[0027] ( I)点击所述触摸屏产生触摸信号; [0027] (I) Click on the touchscreen touch signal is generated;

[0028] (2)信号转换器将所述触摸信号转化为鼠标信号; [0028] (2) said touch signal converter signal into mouse signals;

[0029] (3)所述鼠标信号控制人机界面。 [0029] The (3) mouse signals to control the display unit.

[0030] 所述鼠标信号对应的鼠标操作有:鼠标左键按下,鼠标左键按下并移动,鼠标右键按下,鼠标右键按下并移动,滚轮向下滚动,滚轮向上滚动。 [0030] The signal corresponding to the mouse operation with a mouse: mouse button pressed, press the left mouse button and move the right mouse button is pressed, the right mouse button is pressed and moved down the scroll wheel, the wheel rolling up.

[0031] 如图2,所述触摸信号为单点触到所述触摸屏,则产生鼠标左键按下的信号。 [0031] As shown in FIG 2, the touch signal is a single-point touch of the touch screen, the mouse button pressed to generate a signal.

[0032] 如图3,所述触摸信号为单点触到所述触摸屏并改变触点位置,则产生鼠标左键按下并移动鼠标位置的信号。 [0032] FIG. 3, the touch signal is a single-point touch and the touch screen to change the contact position, is generated by pressing the left mouse button and moving the mouse position signal.

[0033] 如图4,所述触摸信号为单点触到所述触摸屏并保持位置不变,则产生鼠标右键按下的信号。 [0033] FIG. 4, the touch signal is a single-point touch screen and the touch position remains unchanged, a signal is generated right mouse button depressed.

[0034] 如图5,所述触摸信号为单点触到所述触摸屏并保持一定时间的位置不变,再改变触点位置,则产生鼠标右键按下并移动鼠标位置的信号。 [0034] FIG. 5, the touch signal is a single-point touch position of the touch screen and maintaining constant a predetermined time, and then change the contact position, is generated by pressing the right mouse button and moving the mouse position signal.

[0035] 如图6,所述触摸信号为两点触到所述触摸屏并扩大两点之间的距离,则产生鼠标滚轮向下滚动的信号。 [0035] FIG. 6, the touch signal of the touch screen touched two points and increase the distance between two points, is generated mouse wheel down signal.

[0036] 如图7,所述触摸信号为两点触到所述触摸屏并缩小两点之间的距离,则产生鼠标的滚轮向上滚动的信号。 [0036] FIG 7, the touch signal is a two-point touches the touch screen and to reduce the distance between the two points, the upward scroll wheel of the mouse to generate a signal.

[0037] 以电力系统仿真软件电力系统分析综合程序PSASP(Power System AnalysisSoftware Package)为基础,人机界面主要为三维展示图,调节面板,参数设置对话框等。 [0037] to power system simulation software, power system analysis program PSASP (Power System AnalysisSoftware Package), based on the man-machine interface is a predominantly three dimensional map display, adjust the panel, parameter setting dialog boxes. 电力系统分析综合程序PSASP是一套历史长久、功能强大、使用方便的电力系统分析程序,它具有资源共享,使用方便,高度集成和开放的大型软件包。 Power system analysis program PSASP is a long history, powerful, easy to use power system analysis program, which has resource sharing, easy to use, highly integrated and open large packages.

[0038] I.三维展示图[0039] 三维展示图的鼠标操作主要有: [0038] I. a diagram showing a three-dimensional [0039] FIG three-dimensional presentation of the mouse are:

[0040] 鼠标左键按下并移动,通过这个操作可以从各个视角观察三维图; [0040] The left mouse button is pressed and moved, it can be observed from the respective three-dimensional perspective of this operation;

[0041] 鼠标滚轮向下滑动,三维展示图放大; [0041] the mouse wheel to slide down, an enlarged three-dimensional display;

[0042] 鼠标滚轮向上滑动,三维展示图缩小; [0042] The mouse wheel is slid upward, the three-dimensional display of FIG reduced;

[0043] 鼠标右键按下并移动,三维展示图在空间中平移; [0043] pressing the right mouse button and moving the three-dimensional display space in FIG translation;

[0044] 不同操作可以达到的展示效果如表I。 [0044] The different operating display effect can be achieved as shown in Table I.

[0045] 表I三维展示效果所有鼠标操作列表 [0045] Table I shows the effect of three-dimensional list of all mouse

[0046] [0046]

Figure CN102902477AD00051

[0047] 2.调节面板 [0047] 2. Adjust the panel

[0048] 调节面板的鼠标操作主要有: [0048] mouse tuning panel are:

[0049] 鼠标左键按下并移动,通过这个操作可以实现改变滑动条控件的滑块位置; [0049] The left mouse button is pressed and moved, the slider can be achieved slider position is changed by this control operation;

[0050] 鼠标左键按下,通过这个操作可以实现按下调节面板上的圆形按钮。 [0050] The left mouse button is pressed, this operation may be implemented by pressing a button on the panel adjusting circular.

[0051] 表2调节面板所有鼠标操作列表 [0051] Table 2 lists all the adjustment operation panel mouse

[0052] [0052]

Figure CN102902477AD00052

[0053] 3.参数设置对话框 [0053] 3. The Preferences dialog

[0054] 参数设置对话框的鼠标操作主要有: [0054] Preferences dialog mouse operation are:

[0055] 鼠标左键按下,通过这个操作可以实现按下对话框中的按钮。 [0055] The left mouse button is pressed, this operation may be implemented by pressing a button in the dialog box.

[0056] 表3参数设置对话框所有鼠标操作列表 [0056] Table 3 lists the parameter setting operation for all mouse box

[0057] [0057]

Figure CN102902477AD00053

Claims (8)

1. 一种基于触摸屏的电力系统仿真控制方法,其特征在于所述方法包括以下步骤: (1)点击所述触摸屏产生触摸信号; (2)信号转换器将所述触摸信号转化为鼠标信号; (3)所述鼠标信号控制人机界面。 A simulation based on a power control method of a touch screen system, characterized in that said method comprises the steps of: (1) Click on the touchscreen touch signal is generated; (2) a signal converter converts the signal into a mouse, a touch signal; (3) the mouse control signal HMI.
2.根据权利要求I所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述鼠标信号对应的鼠标操作有:鼠标左键按下,鼠标左键按下并移动,鼠标右键按下,鼠标右键按下并移动,滚轮向下滚动,滚轮向上滚动。 An I according to claim power control system simulation method based on a touch screen, wherein: said signal corresponding to the mouse operation with a mouse: mouse button pressed, press the left mouse button and move the mouse right pressing the right mouse button is pressed and moved down the scroll wheel, the wheel rolling up.
3.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为单点触到所述触摸屏,则产生鼠标左键按下的信号。 I according to one or more of the claims 2 Power system simulation based on the touch screen control method, wherein: the touch signal is a single-point touch of the touch screen, the mouse button pressed to generate a signal.
4.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为单点触到所述触摸屏并改变触点位置,则产生鼠标左键按下并移动鼠标位置的信号。 I according to one or more of the claims 2 Power system simulation based on the touch screen control method, wherein: the touch signal is a single-point touch and the touch screen to change the contact position, press the left mouse button is generated and moving the mouse position signal.
5.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为单点触到所述触摸屏并保持位置不变,则产生鼠标右键按下的信号。 I according to one or more of the claim 2, the power control system simulation method based on a touch screen, wherein: the touch signal is a single-point touch screen and the touch position remains unchanged, the right mouse button is pressed is generated signal of.
6.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为单点触到所述触摸屏并保持一定时间的位置不变,再改变触点位置,则产生鼠标右键按下并移动鼠标位置的信号。 The one or more I according to claim 2 based on the power control system simulation method for a touch panel, wherein: the touch signal is a single-point touch position of the touch screen and maintaining constant a predetermined time, and then change the contact position, is generated by pressing the right mouse button and moving the mouse position signal.
7.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为两点触到所述触摸屏并缩小两点之间的距离,则产生鼠标的滚轮向上滚动的信号。 The one or more I according to claim 2 based on the power control system simulation method for a touch panel, wherein: the touch signal is a two-point touches the touch screen and to reduce the distance between two points, is generated mouse roller scroll up signal.
8.根据权利要求I或2所述的一种基于触摸屏的电力系统仿真控制方法,其特征在于:所述触摸信号为两点触到所述触摸屏并扩大两点之间的距离,则产生鼠标滚轮向下滚动的信号。 I according to one or more of the claim 2, the power control system simulation method based on a touch screen, wherein: the touch signal of the touch screen touched two points and increase the distance between two points, is generated mouse scroll wheel down signal.
CN201210306322XA 2012-08-24 2012-08-24 Touch screen based power system simulation control method CN102902477A (en)

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WO2011068713A2 (en) * 2009-12-03 2011-06-09 Microsoft Corporation Three-state touch input system
CN102169390A (en) * 2011-04-29 2011-08-31 深圳市大富科技股份有限公司 Information terminal and touch control method thereof
CN102479043A (en) * 2010-11-29 2012-05-30 联想(北京)有限公司 Method for realizing mouse event on touch screen, touch screen and electronic equipment

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101040244A (en) * 2004-10-08 2007-09-19 泰科电子有限公司 Methods and systems for converting touchscreen events into application formatted data
CN101382856A (en) * 2008-09-24 2009-03-11 广东威创视讯科技股份有限公司 Apparatus and method for implementing USB HID MOUSE function on touching device
WO2011068713A2 (en) * 2009-12-03 2011-06-09 Microsoft Corporation Three-state touch input system
CN102479043A (en) * 2010-11-29 2012-05-30 联想(北京)有限公司 Method for realizing mouse event on touch screen, touch screen and electronic equipment
CN102169390A (en) * 2011-04-29 2011-08-31 深圳市大富科技股份有限公司 Information terminal and touch control method thereof

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