NanoSDK
CocoaMQTT
NanoSDK | CocoaMQTT | |
---|---|---|
2 | 4 | |
112 | 1,561 | |
0.9% | 0.7% | |
9.2 | 5.7 | |
8 days ago | 15 days ago | |
C | Swift | |
MIT License | NOASSERTION |
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For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
NanoSDK
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MQTT Communication Optimization Practices for Internet of Vehicles Mobile Scenarios
We recommend using QoS 1 for sending important data on the automotive side and using MQTT SDK with QoS retransmission capability and built-in QoS message window (queue), such as NanoSDK, which features asynchronous acknowledgment, built-in QoS message queue, automatic retransmission, and high throughput and consumption capabilities.
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MQTT over QUIC: Next-Generation IoT Standard Protocol
NanoSDK 0.6.0 has released the first C language MQTT over QUIC SDK based on the MsQuic project.
CocoaMQTT
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MQTT over QUIC: Next-Generation IoT Standard Protocol
EMQ is also actively promoting the standardization of MQTT over QUIC. We are preparing a draft proposal about MQTT over QUIC after becoming the only Chinese company with voting rights in the OASIS MQTT Technical Committee in 2018 and participating in the 5.0 protocol standard development. We believed that in the near future, the underlying protocol of MQTT will support both TCP and QUIC, benefiting the entire IoT industry.
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MQTT in an IoV Scenario
Internet of Vehicles(IoV)is a typical application of IoT technology in the field of transportation systems. To some extent, the integration layout and collaborative development of relevant technical fields involved in the IoV industry are connected with the IoT. As an open source IoT data infrastructure software supplier, EMQ has provided IoT infrastructure software with cloud-edge collaboration for many customers in the field of IoV for many years. Thus realizing the unified connection of people, vehicles, roads and clouds, and creating intelligent networking, autonomous driving and V2X scenario solutions for vehicle manufacturers, T1 suppliers, aftermarket service providers, travel service companies, etc.
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MQTT, CoAP, or LwM2M? Which IoT protocol to choose?
EMQ also realizes LwM2M access capability on the EMQX server and most functions of the LwM2M Protocol. LwM2M device can register to EMQX-LWM2M to access and manage equipment through EMQX-LWM2M. Device can also report information to EMQX-LWM2M and collect data by using EMQ back-end service.
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Look g for MQTT server recommendations
If this is a requirement i would strongly suggest you to use a selfhosted EMQ X broker (https://www.emqx.io/) with a database. Postgresql would be perfect for this. Then you could setup a webpage with an API that can alter the database from which EMQ X is reading the user/password and also the ACL.
What are some alternatives?
nanomq - An ultra-lightweight and blazing-fast Messaging broker/bus for IoT edge & SDV
Alamofire - Elegant HTTP Networking in Swift
nghttp3 - HTTP/3 library written in C
OAuthSwift - Swift based OAuth library for iOS
quic - In-kernel QUIC implementation with Userspace handshake
RSNetworking
NanoSDK - NanoSDK - MQTT 5.0-compliant SDK with QUIC support in NNG flavor [Moved to: https://github.com/emqx/NanoSDK]
Perfect-Notifications - Apple Push Notifications (APNs) Server-Side library.
quant - QUIC implementation for POSIX and IoT platforms
Reach - A simple class to check for internet connection availability in Swift.
lsquic - LiteSpeed QUIC and HTTP/3 Library
Heimdallr.swift - Easy to use OAuth 2 library for iOS, written in Swift.