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Lorawan Jobs (NOW HIRING)

Embedded Software Engineer

Mundelein, IL · On-site

$134K - $176K/yr

Experience with WiFi, BLE, LoRaWAN, Mesh Networking, Cellular Networks * Selecting hardware targeted for harsh environmental conditions * Ability to read a schematic * Experience with cloud ...

Embedded Software Engineer

San Francisco, CA · On-site

$154K - $203K/yr

Experience with WiFi, BLE, LoRaWAN, Mesh Networking, Cellular Networks * Selecting hardware targeted for harsh environmental conditions * Ability to read a schematic * Experience with cloud ...

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Lorawan information

Is IoT a good career?

A career in IoT, including roles related to LoRaWAN, involves working with connected devices, wireless communication, and network security. It is a growing field with increasing demand for skills in embedded systems, cloud platforms, and data analysis, offering opportunities across various industries. Continuous learning and certifications can enhance job prospects in this expanding sector.

What engineer makes 500,000 a year?

Highly experienced engineers in specialized fields such as software engineering, data engineering, or systems architecture can earn salaries of $500,000 or more annually, especially in senior or executive roles. These positions often require advanced skills, certifications, and extensive industry experience, and may include bonuses or stock options that contribute to total compensation.

What can you do with LoRaWAN?

A LoRaWAN specialist can design, deploy, and manage low-power wide-area networks for IoT applications such as smart cities, agriculture, and industrial monitoring. They work with network infrastructure, sensors, and data management tools to ensure reliable communication over long distances with minimal power consumption.

What are LoRaWAN and what do they do?

LoRaWAN stands for Long Range Wide Area Network, which is a protocol designed for wireless communication over long distances with low power consumption. It is commonly used for Internet of Things (IoT) applications, enabling devices like sensors and meters to send small amounts of data over several kilometers. LoRaWAN networks are ideal for connecting battery-operated devices in remote or hard-to-reach locations, making them popular in industries such as agriculture, utilities, and smart cities. The technology is valued for its ability to provide secure, scalable, and cost-effective connectivity for a wide range of IoT solutions.

What are the key skills and qualifications needed to thrive as a LoRaWAN Specialist, and why are they important?

To thrive as a LoRaWAN Specialist, you need expertise in wireless communication protocols, IoT device configuration, and network management, usually supported by a background in electronics, telecommunications, or computer science. Familiarity with LoRaWAN network servers, gateways, sensors, and tools like The Things Network or ChirpStack is commonly required, along with relevant certifications such as LoRaWAN Network Professional. Strong analytical thinking, problem-solving ability, and effective communication set top performers apart in this field. These skills are crucial for designing, deploying, and optimizing reliable IoT networks that support scalable, secure, and efficient data transmission.

What careers use radio waves?

Careers such as LoRaWAN specialists, radio frequency engineers, and wireless network technicians use radio waves to develop, maintain, and optimize wireless communication systems. These roles often require knowledge of radio frequency spectrum, signal propagation, and relevant certifications or technical skills. They are common in telecommunications, IoT development, and network infrastructure fields.

What are the typical responsibilities of a LoRaWAN Network Engineer on a daily basis?

A LoRaWAN Network Engineer is typically responsible for designing, deploying, and maintaining wireless sensor networks that use the LoRaWAN protocol. Daily tasks often include monitoring network performance, troubleshooting connectivity issues, configuring gateways and end devices, and ensuring data security and integrity. Collaboration with IoT developers, field technicians, and data analysts is common to optimize device integration and network efficiency. Staying up-to-date with firmware updates and regulatory compliance is also a key part of the role.

What is the difference between Lorawan vs IoT Network Engineer?

AspectLorawanIoT Network Engineer
Required CredentialsKnowledge of LoRaWAN protocols, certifications like LoRa AllianceNetworking certifications (CCNA, CompTIA Network+), IoT-specific training
Work EnvironmentWireless sensor networks, IoT device deployment, outdoor/industrial settingsNetwork infrastructure, cloud platforms, enterprise or industrial environments
Industry UsageIoT connectivity solutions, smart city, agriculture, asset trackingDesigning, managing, and troubleshooting IoT network systems

While Lorawan focuses on specific wireless communication protocols for IoT devices, IoT Network Engineers design and maintain the broader network infrastructure that supports IoT deployments, including Lorawan networks. Both roles require networking knowledge, but Lorawan specialists concentrate on LoRaWAN technology, whereas IoT Network Engineers handle diverse network systems.

More about Lorawan jobs
What cities are hiring for Lorawan jobs? Cities with the most Lorawan job openings:
What states have the most Lorawan jobs? States with the most job openings for Lorawan jobs include:
Infographic showing various Lorawan job openings in the United States as of June 2026, with employment types broken down into 86% Full Time, and 14% Contract. Highlights an 95% Physical, and 5% Remote job distribution.
Embedded Software Engineer

Embedded Software Engineer

Aquabyte

Mundelein, IL • On-site

$134K - $176K/yr

Full-time

Posted 17 days ago


Key responsibilities

  • Interface with sensors, cameras, and networks to create robust, reliable, and remote data collection and processing systems.

  • Develop on ARM-based embedded platforms and improve the embedded Linux build and deployment process.

  • Develop software to automate hardware testing procedures and build diagnostic and configuration tooling for wireless hardware interfacing.


Job description

Our mission 
Aquabyte is on a mission to revolutionize the sustainability and efficiency of aquaculture. By making fish farming cheaper and more viable than livestock production, we aim to mitigate one of the biggest causes of climate change and help prepare our planet for impending population growth. Aquaculture is the single fastest growing food-production sector in the world, and now is the time to define how technology is used to harvest the sea and preserve it for generations to come.
 
We are a diverse, mission-driven team that is eager to work alongside kindred spirits. If this vision makes you smile, gives you goosebumps, or otherwise inspires you please get in touch.
 
Our product
We are currently focused on helping salmon farmers better understand their fish populations and make environmentally-sound decisions. Through custom underwater cameras, computer vision, and machine learning we are able to quantify fish weights, detect the health status, and generate optimal feeding plans in real time. Our product operates at three levels: on-site hardware for image capture, cloud pipelines for data processing, and a user-facing web application. As a result, there are hundreds of moving pieces and no shortage of fascinating challenges across all levels of the stack.
 
About The Edge Systems Team:
Edge engineering is responsible for the hardware and software orchestrating the hardware installed at fish farms around the world. Our goals are to create autonomous, reliable, bandwidth-light, long-lasting, robust, remote-debuggable, fail-safe, and easily deployable underwater cameras and sensors.
 
We work with world-class mechanical engineering firms and optical consultants to spec the underwater equipment we deploy. The edge engineering team writes software and procedures to make quality testing of these cameras as easy as possible for the field team in Norway. The types of tests we orchestrate are hardware burn-in, optical quality testing in-air and in-water, sensor calibration and verification, and stereo camera calibration.
 
The edge team also writes software to make it easy for the field team to successfully deploy and configure our hardware at the farm. As it’s often rainy in Norway and the Internet may not yet be set up, our debugging tools need to operate wirelessly and allow a field technician to interface with the hardware from their phones.
 
The edge team is responsible for designing the network, cellular backup system, and mesh network of devices at a farm. We plan for failure, and build in redundancies where possible. Internet can go out for hours and there’s only so much data we can uplink. Boats may park between our antennas.
 
As Aquabyte evolves, more products will be built on-top of the pixel and sensor data we collect. In order to scale, these algorithms need to live on the edge. We work closely with the machine learning team to help move their algorithms safely from the cloud to the edge.
We are responsible for our own Linux build process and the process of safely deploying software to the devices in the field.
 
This role is flexible and is based out of our Bay Area office and involves occasional travel to Norway and Chile.
Job Responsibilities
  • Interface with sensors; cameras; mesh, wireless, and cellular networks to create robust, reliable, and remote data collection and processing systems
  • Develop on ARM-based embedded platforms using C, C++, python, golang or rust
  • Improve our embedded Linux build and deployment process
  • Develop software to automate hardware testing procedures
  • Build diagnostic and configuration tooling to enable our field team to interface with our hardware wirelessly from their phones.
  • Enable our research team to try new machine learning models on real hardware
  • Participate in hardware specifications for our next generation equipment
  • Participate in on-call for diagnosing and fixing device issues remotely and implementing procedures and tooling to help enable the field team to self-diagnose and fix issues themselves
Qualifications
  • Engineering or CS degree.
  • Software development on an embedded device
  • Experience writing and building software.
  • Professional experience with C, C++, Golang, Python or Rust.
Desired but Not Required
  • Solid understanding of TCP/IP
  • Real-Time Operating Systems (RTOS)
  • Buildroot, Yocto Project, toolchains, uBoot, UART, SPI, I2C interfaces
  • Experience with WiFi, BLE, LoRaWAN, Mesh Networking, Cellular Networks
  • Selecting hardware targeted for harsh environmental conditions
  • Ability to read a schematic
  • Experience with cloud environments such as AWS.
  • Experience deploying to off-site hardware.
  • Professional experience working with cameras.
  • Build and maintain fleet operations tools for monitoring, notifications, trending, and analysis.
  • Experience at a small & quickly growing startup
Benefits
  • Competitive salary and equity
  • Unlimited vacation policy
  • Flexible working hours + hybrid work policy
  • Medical, vision, & dental insurance
  • Retirement matching plan
  • Potential travel to Norway
  • Evolve in a fast-paced environment
  • Be able to shape a business in its early days
  • Get ideas, feedback, and suggestions from other best-in-their-field colleagues
  • Mentorship opportunities, we'll be dedicated to investing in you and supporting you as you grow
Aquabyte takes a market-based approach to compensation. The pay varies on a variety of factors including: job-related qualification, years of experience and competence level, interview performance, and work location.
At Aquabyte, we admire interesting people with a unique background. We strongly encourage you to apply even if you don’t satisfy all the requirements, and we will get back to you as soon as possible! 

We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.