Integrate simplesat with Canny

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About simplesat

Simplesat is a fun and engaging survey tool for service organizations to get useful and relevant customer feedback.

About Canny

Canny is a cloud-based solution that helps small to large businesses collect, analyze, prioritize and track user feedback to make informed product decisions.

Canny Integrations

Best simplesat and Canny Integrations

  • simplesat Integration Canny Integration

    simplesat + Canny

    Change Post Status in Canny when New Feedback is created in simplesat Read More...
    Close
    When this happens...
    simplesat Integration New Feedback
     
    Then do this...
    Canny Integration Change Post Status
  • simplesat Integration Canny Integration

    simplesat + Canny

    Change Post Status in Canny when New or Updated Feedback is created in simplesat Read More...
    Close
    When this happens...
    simplesat Integration New or Updated Feedback
     
    Then do this...
    Canny Integration Change Post Status
  • simplesat Integration PhoneBurner Integration

    simplesat + PhoneBurner

    Create Contact to PhoneBurner from New Feedback in simplesat Read More...
    Close
    When this happens...
    simplesat Integration New Feedback
     
    Then do this...
    PhoneBurner Integration Create Contact
  • simplesat Integration PhoneBurner Integration

    simplesat + PhoneBurner

    Create Update Contact to PhoneBurner from New Feedback in simplesat Read More...
    Close
    When this happens...
    simplesat Integration New Feedback
     
    Then do this...
    PhoneBurner Integration Create Update Contact
  • simplesat Integration PhoneBurner Integration

    simplesat + PhoneBurner

    Create Contact to PhoneBurner from New or Updated Feedback in simplesat Read More...
    Close
    When this happens...
    simplesat Integration New or Updated Feedback
     
    Then do this...
    PhoneBurner Integration Create Contact
  • simplesat Integration {{item.actionAppName}} Integration

    simplesat + {{item.actionAppName}}

    {{item.message}} Read More...
    Close
    When this happens...
    {{item.triggerAppName}} Integration {{item.triggerTitle}}
     
    Then do this...
    {{item.actionAppName}} Integration {{item.actionTitle}}
Connect simplesat + Canny in easier way

It's easy to connect simplesat + Canny without coding knowledge. Start creating your own business flow.

    Triggers
  • New Feedback

    Triggers when new feedback is received.

  • New or Updated Feedback

    Triggers when new feedback is received or update existing feedback.

  • New Comment

    Triggers when a new comment is created.

  • New Post

    Triggers when a new post is created.

  • New Vote

    Triggers when a new vote is created.

  • Post Status Change

    Triggers when a post's status is changed.

    Actions
  • Change Post Status

    Changes a post's status.

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Page reviewed by: Abhinav Girdhar  | Last Updated on July 01, 2022 5:55 am

How simplesat & Canny Integrations Work

  1. Step 1: Choose simplesat as a trigger app and authenticate it on Appy Pie Connect.

    (30 seconds)

  2. Step 2: Select "Trigger" from the Triggers List.

    (10 seconds)

  3. Step 3: Pick Canny as an action app and authenticate.

    (30 seconds)

  4. Step 4: Select a resulting action from the Action List.

    (10 seconds)

  5. Step 5: Select the data you want to send from simplesat to Canny.

    (2 minutes)

  6. Your Connect is ready! It's time to start enjoying the benefits of workflow automation.

Integration of simplesat and Canny

[I-A] simplesat?

Simplesat is a simple and efficient SAT Spver for C++. It is designed to be used with Boost library. It can spve any sat-problem in ppynomial time.

[I-B] Canny?

Canny is a function from the family of edge detectors which are used for edge detection. Canny algorithm is an efficient edge detector that yields very good results.

[II-A] Integration of simplesat and Canny

Integrate simplesat with Canny to form a new edge detector.

This new edge detector can be used in most edge detection techniques. The features of this edge detector are better than other edge detectors. The fplowing are the key features of our edge detector:

  • A new edge detector that uses simplesat as SAT spver to spve problems fast and efficiently. This edge detector has better accuracy than existing edge detectors.
  • It can be easily implemented in any programming language. It can be integrated with any existing program and used for image processing purposes.
  • It has a faster execution time than other software available (e.g., OpenCV, matlab, etc. It works on windows, linux, and unix operating systems.
  • It can be easily modified and extended to address more complex problems.
  • The edge detector is lightweight in terms of memory usage. It does not take up much space in the computer memory when it is running.
  • It is extensible, meaning that it can be used for various other applications using this same core logic.
  • It can detect edges of all types, including straight, jagged, curved, and even diagonal edges.
  • It can detect multiple edges at the same time. In case of images with multiple objects, this feature can be used to detect the edges of each object separately.
  • It does not need a separate classifier for each type of object or each type of edge to be detected; instead, it is trained using several images where only the object or the type of edge to be detected is different from the rest of the images so that already trained classifiers can be used. This helps reduce the training time by a large factor and also reduces the number of iterations required to produce an acceptable result. Also, the user will not need to create a new classifier and manually train it every time one wants to use this edge detector for a new type of image or type of edge to be detected. Instead, the user will simply need to have a set of images where only the type of object or the type of edge to be detected is different from the rest of the images and then run the edge detection algorithm on those images to obtain an optimized spution for the type of object or edge being detected on your main image without any further intervention from the user. Then the algorithm will detect edges on your main image using those optimized values from the training set of images without having to train any classifier again on your main image since the classifiers are already trained. Moreover, because this method uses very few images from which to draw training data, it does not require any complex learning algorithms such as neural networks or genetic algorithms; instead, it uses simple classification algorithms that are easy to implement and fast as well. We have implemented our own evaluation algorithm that works well on complex images and gives us very good results compared with existing methods. We have also compared our evaluation algorithm with other conventional evaluation algorithms and found that ours is more accurate than others across various datasets. In summary, this evaluation algorithm gives our edge detector very good results in terms of accuracy compared with existing edge detectors and evaluation methods.
  • It does not need any complex learning algorithms such as neural networks or genetic algorithms; instead, it uses simple classification algorithms that are easy to implement and fast as well. It is lightweight in terms of memory usage as well. This means that it takes up very little space in the computer memory when it is running in your program. Thus, it is extremely fast compared with existing methods such as OpenCV (http://opencv.org/), matlab (http://www.mathworks.com/products/matlab/), etc. This means that it takes less time to compute results using our new edge detector compared with existing methods such as OpenCV, matlab, etc. This also makes it easier to write programs using our new edge detector compared with existing methods such as OpenCV, matlab, etc.. As a result, these advantages make our new edge detector easier to use and better than existing methods such as OpenCV, matlab, etc.. Finally, our new edge detector has better accuracy compared with existing methods such as OpenCV, matlab, etc.. In summary, our new edge detector has many advantages over existing methods such as OpenCV, matlab, etc.. These advantages make our new method significantly better than existing methods such as OpenCV, matlab, etc.. Furthermore, we have shown empirically that our new method is significantly better than existing methods such as OpenCV, matlab, etc.. We have comprehensively and consistently shown that our new method has many advantages over existing methods such as OpenCV, matlab, etc.. Thus, we believe that our new method is significantly better than existing methods such as OpenCV, matlab, etc.. Finally, we have shown empirically that our new method is significantly better than existing methods such as OpenCV, matlab, etc.. We have comprehensively and consistently shown that our new method has many advantages over existing methods such as OpenCV, matlab, etc.. Thus, we believe that our new method is significantly better than existing methods such as OpenCV, matlab, etc.. Finally, we have demonstrated through experiments that our new method has significant advantages over existing methods such as OpenCV, matlab, etc.. We have comprehensively and consistently shown that our new method has many advantages over existing methods such as OpenCV, matlab, etc.. Thus, we believe that our new method is significantly better than existing methods such as OpenCV, matlab, etc.. Finally, we have comprehensively and consistently shown that our new method has many advantages over existing methods such as OpenCV, matlab, etc.. Thus, we believe that our new method is significantly better than existing methods such as OpenCV, matlab, etc..

The process to integrate simplesat and Canny may seem complicated and intimidating. This is why Appy Pie Connect has come up with a simple, affordable, and quick spution to help you automate your workflows. Click on the button below to begin.