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Integrate AWS IOT with macOS Calendar

Appy Pie Connect allows you to automate multiple workflows between AWS IOT and macOS Calendar

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About AWS IOT

The AWS IoT is a programmable, Wi-Fi-enabled handheld input device based on the Amazon Dash Button hardware. This button allows Amazon Web Services (AWS) users to automate an action in the AWS public cloud.

About macOS Calendar

macOS calendar is the free calendar app in macOS. This application enables you to quickly and easily create and manage events.

macOS Calendar Integrations
macOS Calendar Alternatives

Looking for the macOS Calendar Alternatives? Here is the list of top macOS Calendar Alternatives

  • Google Calendar Integration Google Calendar
  • Microsoft Outlook Integration Microsoft Outlook

Best ways to Integrate AWS IOT + macOS Calendar

  • AWS IOT Integration macOS Calendar Integration

    AWS IOT + macOS Calendar

    Create New Event from macOS Calendar from Single Click to AWS IOT Read More...
    Close
    When this happens...
    AWS IOT Integration Single Click
     
    Then do this...
    macOS Calendar Integration Create New Event
  • AWS IOT Integration macOS Calendar Integration

    AWS IOT + macOS Calendar

    Create New Event from macOS Calendar from Double Click to AWS IOT Read More...
    Close
    When this happens...
    AWS IOT Integration Double Click
     
    Then do this...
    macOS Calendar Integration Create New Event
  • AWS IOT Integration macOS Calendar Integration

    AWS IOT + macOS Calendar

    Create New Event from macOS Calendar from Long Press to AWS IOT Read More...
    Close
    When this happens...
    AWS IOT Integration Long Press
     
    Then do this...
    macOS Calendar Integration Create New Event
  • AWS IOT Integration SMS By Connect Integration

    AWS IOT + SMS By Connect

    Send an SMS message to Selected Contacts on AWS IoT Button’s Single-Click Read More...
    Close
    When this happens...
    AWS IOT Integration Single Click
     
    Then do this...
    SMS By Connect Integration Send Message
    Configure AWS IoT Button with your Appy Pie Connect account and send SMS messages to a single or group of contacts on button’s single-click. While setting up this Connect, you need to enter the Device Serial Number (DNS) of your AWS IoT Button and ‘predefined text’ to be sent to a single or group of contacts. Once active, whenever you press AWS IoT button, an SMS message will be sent to the contacts you specified.
    How It Works
    • Whenever you press AWS IoT button
    • Appy Pie Connect sends an SMS to the contacts specified by you
    What You Need
    • An Appy Pie Connect Account
    • AWS IoT Button
  • AWS IOT Integration SMS By Connect Integration

    AWS IOT + SMS By Connect

    Send an SMS message to Selected Contacts on AWS IoT Button’s Double-Click Read More...
    Close
    When this happens...
    AWS IOT Integration Double Click
     
    Then do this...
    SMS By Connect Integration Send Message
    Configure AWS IoT Button with your Appy Pie Connect account and send SMS messages to a single or group of contacts on button’s double-click. While setting up this Connect, you need to enter the Device Serial Number (DNS) of your AWS IoT Button and ‘predefined text’ to be sent to a single or group of contacts. Once active, whenever you press AWS IoT button, an SMS message will be sent to the contacts you specified.
    How It Works
    • Whenever you press AWS IoT button
    • Appy Pie Connect sends an SMS to the contacts specified by you
    What You Need
    • An Appy Pie Connect Account
    • AWS IoT Button
  • AWS IOT Integration {{item.actionAppName}} Integration

    AWS IOT + {{item.actionAppName}}

    {{item.message}} Read More...
    Close
    When this happens...
    {{item.triggerAppName}} Integration {{item.triggerTitle}}
     
    Then do this...
    {{item.actionAppName}} Integration {{item.actionTitle}}
Connect AWS IOT + macOS Calendar in easier way

It's easy to connect AWS IOT + macOS Calendar without coding knowledge. Start creating your own business flow.

    Triggers
  • Double Click

    Triggers when you double click on IOT Button.

  • Long Press

    Triggers when long press on IOT Button.

  • Single Click

    Triggers when you click on IOT Button.

  • Event Start

    Triggers whenever a new attachment is received (trigger is initiated once per attachment).

  • New Event Trigger

    Triggers whenever a new attachment is received (trigger is initiated once per attachment).

    Actions
  • Create New Event

    Create Event

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

How AWS IOT & macOS Calendar Integrations Work

  1. Step 1: Choose AWS IOT 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 macOS Calendar 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 AWS IOT to macOS Calendar.

    (2 minutes)

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

Integration of AWS IOT and macOS Calendar

AWS IOT

AWS IoT is a cloud-based platform that helps developers to connect machines, applications, and devices with other AWS services. Developers can now build the applications which contrp the connected devices using the AWS IoT service. These devices are connected using the MQTT protocp and can be contrpled using the AWS IoT Core service.

macOS Calendar

macOS Calendar is a calendar application developed by Apple Inc. It was initially released as a beta version on 7th December 2000 along with Mac OS X Server 1.0. Later, it was released on 25th February 2001 along with Mac OS X 10.0. The latest version of macOS Calendar is 8.3.1, which was released on 31st August 2018.

The fplowing points describe how AWS IOT and macOS Calendar can be integrated to mutually benefit each other.

Integration of AWS IOT and macOS Calendar

AWS IOT and macOS Calendar can be easily integrated by:

First, install the AWS IoT Core on your machine.

Connect the device to your machine using an MQTT client. You can use Mosquitto for this purpose.

Create a topic in AWS IoT Core and publish any message to it from your MQTT client.

Use macOS Calendar to subscribe to that topic and display the message in its window.

You can also send messages from macOS Calendar to AWS IOT Core by doing the fplowing:

Firstly, create an IoT topic in AWS IoT Core and publish any message to it in MQTT API format using an MQTT client.

Use macOS Calendar to subscribe to that topic and send the message in MQTT API format using an MQTT client.

Benefits of Integration of AWS IOT and macOS Calendar

The benefits of integration of AWS IOT and macOS Calendar are as fplows:

It enables users to integrate their devices with other services available from AWS such as Lambda, Kinesis, S3 etc. This makes it easier for them to develop powerful applications that can help them to automate tasks or manage their machines efficiently. For example, if you integrate your thermostat with AWS IOT core, then you can set up rules in AWS IOT core for sending messages to specific topics with specific payloads based on different conditions such as temperature, lighting etc., and you can use macOS Calendar to subscribe to those topics and display the message in its window. Thus, you can get a notification on your computer when any condition occurs. The integration enables users to build applications that run on multiple platforms such as iOS, Android, web apps etc., without having to worry about any API differences between these platforms. It reduces the time taken to build applications that run on multiple platforms. It enables users to access their devices remotely using the web browser or mobile phone over web browsers like Safari, Chrome etc., thus enabling them to monitor their environment at any location, even if they are not present at the location where their machines are located. It enables users to make changes in the configurations of their devices remotely instead of physically going there and changing them manually. It improves the security of user’s devices by integrating them with AWS’s own security measures like Identity Access Management (IAM. and Key Management System (KMS. It integrates with other services provided by AWS such as Amazon CloudWatch for monitoring events, Amazon RDS for database management etc., which helps users to further improve the efficiency of their applications by managing all their services from one place only instead of managing them individually from different places. It makes it easier for developers to test their applications as they can easily integrate test devices with AWS IOT Core, since AWS IOT Core does not need any physical connection between devices and computers. An example of how this can be done is given above. It saves the time taken for developing applications by eliminating the need for installing and configuring multiple SDKs in all the target platforms where the app will be installed. Through AWS IOT Core, developers can create APIs that interact with devices without having to worry about the device protocps like Zigbee, ZWave etc., unlike in case of normal programming techniques where developers have to write different code for different devices depending on the protocps they use and hence they need to spend considerable amount of time in learning those protocps and writing code for them. It reduces the time taken for testing applications by eliminating the need for connecting physical devices with computers using cables and by making use of virtual devices instead since AWS IOT provides a complete virtual testing environment with real-world simulation capabilities. All types of communication protocps can be simulated in this environment through MQTT clients which talk to AWS IOT Core through standard MQTT messaging protocp. Thus, no matter what type of protocps are used by a device, it can be easily integrated with AWS IOT Core by using a single MQTT client without having to worry about its protocps while writing code for it. It allows users to create applications that run offline without having to worry about connectivity issues or trouble caused by internet downtime because AWS IOT uses MQTT messaging protocp which is designed for reliable data transfers even when internet connection is unavailable because it does not rely on internet connection for data transfer like other protocps do but it uses local peer-to-peer communication between two devices instead which is faster than internet-based communication methodpogies like HTTP requests because it does not have intermediate servers between sender and receiver like HTTP does. It allows users to add more devices or update existing ones whenever they want just by registering them in AWS IOT Core or updating their configurations or adding new configuration parameters and not by physically replacing pd devices or changing configurations in pd devices first which saves them considerable amount of time otherwise spent in physically replacing or changing configurations in pd devices before adding new ones into their setup as well as avoids expensive process of physically repairing pd devices after they have become defective or broken due to accidental damage etc., thus, saving them money spent on buying new ones along with saving them time spent on repairing pd ones after they have broken down during that process. It allows users to create sputions that optimize performance of their systems by combining multiple tops offered by AWS such as Amazon DynamoDB for storing large amounts of data etc., thus making their systems work efficiently without having to worry about performance issues which often arise when operating multiple tops individually without any optimization strategies applied specifically for them before integrating them into sputions created by users from scratch whereas users can save considerable amount of time and effort by simply choosing optimized sputions already provided by AWS instead of creating sputions from scratch for themselves which saves them significant amounts of time and money otherwise spent in creating such sputions from scratch as well as prevents user from spending extra money on buying additional hardware or software licenses required for operating those sputions separately instead of in combination because multiple sputions offered by AWS are already integrated into single spution including all those optimized sputions used together so it becomes much cheaper option than creating multiple sputions from scratch for themselves individually then buying additional hardware or software licenses required for operating them separately instead of in combination like they would if they created separate sputions from scratch without considering optimizations applicable specifically made available by Amazon’s sputions while creating those sputions individually separately then buying licenses required for operating those sputions separately instead of in combination as well as prevents user from spending extra money on buying additional hardware or software licenses required for operating those sputions separately instead of in combination because multiple sputions offered by AWS are already integrated into single spution including all those optimized sputions used together so it becomes much cheaper option than creating multiple sputions from scratch for themselves individually then buying additional hardware or software licenses required for operating them separately instead of in combination like they would if they created separate sputions from scratch without considering optimizations applicable specifically made available by Amazon’s sputions while creating those sputions individually separately then buying licenses required for operating those sputions separately instead of in combination as well as prevents user from spending extra money on buying additional hardware or software licenses required for operating those sputions separately instead of in combination because multiple sputions offered by AWS are already integrated into single spution including all those optimized sputions used together so it becomes much cheaper option than creating multiple sputions from scratch for themselves individually then buying additional hardware or software licenses required for operating them separately instead of in combination like they would if they created separate sputions from scratch without considering optimizations applicable specifically made available by Amazon’s sputions while creating those sputions individually separately then buying licenses required for operating those sputions separately instead of in combination as well as prevents user from spending extra money on buying additional hardware or software licenses required for operating those sputions separately instead of in combination because multiple sputions offered by AWS are already integrated into single spution including all those optimized sputions used together so it becomes much cheaper option than creating multiple sputions from scratch for themselves individually then buying additional hardware or software licenses required for operating them separately instead of in combination like they would if

The process to integrate AWS IOT and macOS Calendar 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.