TASK 1 Write Matlab functions to do the followings:

1. Accept user input image. Allow user to select the image.

2. Perform filtering functions on the input image.
Example:
Select an image: Lena.png
Convert to grayscale
Add noise:
Noise 1: Gaussian noise
Noise 2: Salt & Pepper
Perform filtering on image with each noise:
a) Weighted Average filter
b) Median filter
c) Laplacian filter
d) Ideal lowpass filter
e) Butterworth highpass filter

3. Display: Input image, image with noise, filtered image

TASK 2 Write a Matlab function to perform image segmentation using:
a) Global thresholding
b) Iterative thresholding

Load the image into memory. Convert to grey image. Then perform image segmentation.

Example:
Select an image: Lena.png (use your own image)
Perform segmentation:
Display: Input image, Binary images (output images)
NOTES: Filtering in frequency domain:
i. The command fft2, fftshift, ifft2, ifftshift A = imread(Lenna.tiff);
B = rgb2gray(A); C = fftshift(fft2(B)); figure, imshow(log(abs(C)), colormap(jet(64))),
colorbar

This is the last task I need to submit to pass the unit, and I cannot for the life of my figure out what I’m doing. The task is first year basic C++. The program is a Knight Database with a menu and simple functions to essentially add knight details, delete knight details, update knight details etc. I have attached the task sheet as well as my existing code – my existing code has foundation components that need to remain as is (was an in class walk through, and have now been made to expand on that). This is using SplashKit – and has been written in Visual Studio Code.

I need to write a facility location problem program. I have already found the solution.
Here is the youutbe link
https://www.youtube.com/watch?v=bEZfO1DowOo&app=desktop
Here are all the files
https://onedrive.live.com/?cid=7e9697bc271b1428&id=7E9697BC271B1428%2116229&authkey=%21APg5pNwhuVf2FQE
I just want you to modify and, keep the same logic but change the variable names, gui layout, demand values used, pictures for the cities and anything to make the program look different and instead of Germany change to country. I will ptove the map and the data for it.
Also make the output auto scale this program displays the screen unevenly on different screens.
any questiions please contact me

I need to write a facility location problem program. I have already found the solution.
Here is the youutbe link
https://www.youtube.com/watch?v=bEZfO1DowOo&app=desktop
Here are all the files
https://onedrive.live.com/?cid=7e9697bc271b1428&id=7E9697BC271B1428%2116229&authkey=%21APg5pNwhuVf2FQE
I just want you to modify and, keep the same logic but change the variable names, gui layout, demand values used, pictures for the cities and anything to make the program look different and instead of Germany change to country. I will ptove the map and the data for it.
Also make the output auto scale this program displays the screen unevenly on different screens.
any questiions please contact me

Please write a mini REST API connected to a Go microservice to search movies from http://www.omdbapi.com/

Access credentials :
OMDBKey : “???”
URL : http://www.omdbapi.com/
  * Example url call to search is –> GET http://www.omdbapi.com/?apikey=????=Batman&page=2

Tools/Implementation principles required such as :
– gRPC
– Clean architecture
– Go Kit
– API Gateway
– Unit tests

The API should  :
– Have 1 endpoint named  “/search” with GET method that will access API GW
– Have the API GW to call the microservice called Movie via gRPC’s protobuf
– The parameters are “pagination” and “searchword”
– Returns a JSON to client containing the list of the search result

As we have seen in class, AVL trees are excellent for search given their height of log2nlog_2{n}log2n or log2n+1log_2{n} + 1log2n+1. Unfortunately, to achieve this efficient search, they have to use rotations during insertions and deletions, and those take time!
In this project, you will implement AVL-G trees, a simple modification of AVL Trees that allows for tuning the balance of an AVL Tree based on a constructor parameter. Simply put, an AVL-G tree, where G=1,2,3,,G = 1, 2, 3, ldots,G=1,2,3,, allows for any given subtree to have a balance of at most G. This means that our classic AVL trees can be referred to as AVL-1 trees.

Super easy to do just dont have time please make sure to read it

Demonstrate you have successfully configured your Java 8 environment by providing the following evidence.
1. A screen capture showing the results of running javac -version at your Command prompt.
2. A screen capture showing the results of running your own unique “Hello, UMUC!” program by changing the greeting to a personal greeting you create for the class.

Your demonstrations should run from the command prompt and not from an Integrated Development Environment such as Netbeans or Eclipse.

Include your source code as an attachment for other students to compile, modify and run.

Super easy to do just dont have time please make sure to read it

Demonstrate you have successfully configured your Java 8 environment by providing the following evidence.
1. A screen capture showing the results of running javac -version at your Command prompt.
2. A screen capture showing the results of running your own unique “Hello, UMUC!” program by changing the greeting to a personal greeting you create for the class.

Your demonstrations should run from the command prompt and not from an Integrated Development Environment such as Netbeans or Eclipse.

Include your source code as an attachment for other students to compile, modify and run.