Lab 4: Develop a Virtual Instrument in the LabVIEW environment that performs a mathematical operation: a ± b = c. Input and output data should be displayed as binary and decimal four-digit numbers. Provide protection against incorrect user actions.
Recommendation: use additional code to perform mathematical operations.
Lab 6: Create a virtual device (VP) that performs basic mathematical operations (addition, subtraction, multiplication, division) with two complex numbers and turns them from one form to another (algebraic, trigonometric and exponential). Provide the ability to separately enter the real and imaginary parts of complex numbers.
Lab 7: Develop a Virtual Instrument (OP) in a LabView environment consisting of three virtual runway sub-appendages (in LR4-LR6). Provide arbitrary inclusion and shutdown of each runway at the request of the user and his message: which of the runways is currently running. To provide for the possibility of the developed OP to work for positive and negative values a, b, c.
Lab 8: Run documentation, including the word format, for the VP developed in LR7.
Lab 9: Develop a Virtual Instrument (VP) in the LabVIEW environment, which forms a table that simulates experimental data with a length of 30 to 50 values with an amplitude of -1 to 1. OP should provide: 1. Filling the table in two modes: manual and automatic, in automatic mode, the table is filled with pseudo-random sequence values; 2. The calculation of the range of variation; 3. Calculation of the limit; 4. Calculation of standard deviation; 5. The calculation of variance; 6. Information output in the form of a table.
Lab 10: Modify the Virtual Instrument (VP) developed in LR9 to perform the operations of calculating the coefficient of variations and the coefficient of oscillations. The VP should provide: 1. a graphical display of the input data and standard deviation for each of the experimental values; 2. graphic display of input data with calculation and taking into account quartile estimates and designate the data of the first quartile as V0.25 - black, the second V0.5 - blue, the third - V0.75 - green 3. Tabular display of input and output
Lab 11: Modify the Virtual Instrument (VP) developed in LR9-LR10. The VP should provide, at the request of the user: 1. a graphical display of the input data and standard deviation for each of the experimental values (ЛР10) 2. calculation and construction of a histogram based on the “three sigma” rule (information output in graphical form) 3. Reflection of confidence probability.
Lab 12: Develop a VI that displays the two functions sin and cos. The device should be able to change all the parameters of these functions (amplitude, period and initial phase) and will allow to measure the values of these functions using markers, which are turned on at the request of the user.
Waiting for your suggestions regarding the price and lead time.
Hi there,
I am a GUI expert using NI LabVIEW. I am a firmware engineer and used LabVIEW several times for my projects about creating an algorithm from the data of microcontrollers
I am very good in Labview. I am working in labview for the last 5 years. I assure you I will done this project with good quality and deliver within a time
I am a certified labview architect with more than 7 years experience in labview software development.
I can develop the labview virtual instruments Lab4 to Lab12 with in 3 days with properly documented code.