Ministry of Human Resources and Social Security plans to release 15 new occupations

In recent years, with the development of emerging industries such as artificial intelligence, high-tech, e-sports, and new industries, new jobs have emerged, providing more job options for the job market. The Ministry of Human Resources and Social Security initially determined 15 artificial intelligence engineering technicians and other 15 new jobs to be released.

15 plans to release new occupations

1. Artificial intelligence engineering technician
2. Internet of Things Engineering Technician
3. Big data engineering technicians
4. Cloud computing engineering technicians
5. Building Information Model Technician
6. E-sports operator
7. E-sportsman
8. Drone driver
9. Digital Manager
10. Agricultural managers
11. Industrial Robot System Operator
12. Industrial Robot System Operator
13. Internet of Things installation and debugger
14. Urban rail transit line workers
15. Urban rail transit train maintenance workers
    The publicity period is from January 25 to January 31, 2019.

01
Artificial intelligence engineering technician
definition:
Engineering and technical personnel engaged in the analysis, research and development of various technologies related to artificial intelligence, deep learning, and design, optimization, operation and maintenance, management and application of artificial intelligence systems.

Main tasks:

1. Analyze and study artificial intelligence algorithms, deep learning and other technologies;
2. Research, development, and application of artificial intelligence instructions and algorithms;
3. Planning, designing, and developing chips based on artificial intelligence algorithms;
4. Develop, apply, and optimize artificial intelligence technologies such as language recognition, semantic recognition, image recognition, and biometric identification;
5. Design, integrate, manage, and deploy artificial intelligence software and hardware systems;
6. Design and develop artificial intelligence system solutions.

02

Internet of Things Engineering Technician
definition:

Research and development from technology networking, platforms, chips, sensors, smart tags, and other engineering and technical personnel in the design, testing, maintenance, management, and service of IoT projects.

Main tasks:

1. Research and application of Internet of Things technologies, architectures, protocols and standards;
2. Research, design and development of IoT dedicated chips and software and hardware systems;
3. Planning, research, and design of IoT solutions;
4. Plan, design, integrate, deploy, and guide the implementation of the IoT system;
5. Install, commission, maintain and ensure the normal operation of the IoT system;
6. Monitor, manage and secure the IoT system;
7. Provide technical advice and technical support for the IoT system.

03

Big data engineering technician

definition:

Engineering and technical personnel engaged in large-data data collection, cleaning, analysis, treatment, mining and other technical research, and use, management, maintenance and service.

Main tasks:

1. Research and develop technologies for big data collection, cleaning, storage and management, analysis and mining, display and application;
2. Research and apply big data platform architecture, technology and standards;
3. Design, develop, integrate, and test big data hardware and software systems;
4. Big data collection, big data cleaning, big data modeling and big data analysis;
5. Manage, maintain and ensure the stable operation of big data systems;
6. Monitor, manage and secure big data security;
7. Provide technical advice and technical services for big data.

04

Cloud computing engineering technician

definition:

Engineering and technical personnel engaged in cloud computing technology research, cloud system construction, deployment, operation and maintenance, cloud resource management, applications and services.

Main tasks:

1. Research and develop cloud computing technologies such as virtualization, cloud platforms, cloud resource management and distribution, and related technologies such as large-scale data management and distributed data storage;
2. Research and apply cloud computing technologies, architectures, protocols and standards;
3. Planning, designing, developing, integrating, and deploying cloud computing systems;
4. Manage, maintain and guarantee the stable operation of the cloud computing system;
5. Monitor and secure cloud computing systems;
6. Provide technical consulting and technical services for cloud computing systems.

05

Building information model technician

definition:

Use computer software to carry out simulation construction during engineering practice to improve the technical process of the engineering process in the whole process.

Main tasks:

1. Responsible for the construction, review, maintenance and management of BIM models such as construction, structure, HVAC, water supply and drainage, and electrical professional in the project;
2. Coordinate with other professional modeling and do collision check;

3.BIM visual design: indoor and outdoor rendering, virtual roaming, architectural animation, virtual construction cycle, etc.;

1. Construction management and post-operation and maintenance.

06

E-sports operator
definition:

Personnel engaged in organizational activities and content operations in the e-sports industry.

Main tasks:

1. Conduct overall planning and conceptual planning of e-sports activities, design and develop activity plans;
2. Maintain online and offline media channel relationships, publicize, promote, coordinate and supervise the theme and brand of e-sports activities;
3. Analyze and evaluate the commercial value of e-sports activities, design event sponsorship rights, and expand cooperation with sponsors and contractors;
4. Coordinate various resources of e-sports activities and organize e-sports activities;
5. Produce and publish audio and video content of the e-sports event and evaluate the release effect;
6. Carry out a summary report on the e-sports activities and manage the relevant files;

07

E-sportsman

definition:

Personnel engaged in different types of e-sports competitions, sparring, experience and performances.

Main tasks:

1. Participate in the e-sports competition;
2. Conduct professional e-sports training and acting activities;
3. Collect and study the dynamics of e-sports teams, the content of e-sports games, and provide professional e-sports data analysis;
4. Participate in the design and planning of e-sports games, experience e-sports games and make recommendations;
5. Participate in the performance of e-sports activities.

08

Drone pilot

definition:

A person who drives a drone to complete a given mission by remotely controlling the equipment.

Main tasks:

1. Installation and commissioning of drone motors, power equipment, blades and corresponding mission equipment;
2. Plan routes according to the mission;
3. Prove the flight parameters according to the flight environment and meteorological conditions;
4. Manipulating the drone to complete the scheduled mission;
5. Organize and analyze the collected data;
6. Evaluation of flight results and work results;
7. Inspect, maintain, and organize drones and mission equipment.

09

Digital manager
definition:

Utilize the digital office software platform to conduct enterprise and organization personnel structure editing, organization operation process maintenance, workflow coordination, big data decision analysis, and enterprise upstream and downstream online connection, enabling enterprises to organize online, communication online, collaborative online, business online, and ecological Online, to realize the online management and digitization of business management.

Main tasks:

1. Edit the enterprise and organization personnel structure on the digital management platform, and be responsible for formulating the enterprise digital office software promotion plan and implementation plan for flat visualization management;
2. Responsible for the maintenance of all modules of the digital office and the maintenance of the necessary processes for the organization and operation, to achieve efficient and safe communication of the organization;
3. Set up a collaborative mechanism for business and organization workflows to achieve the precipitation and sharing of knowledge and experience;
4. Realize the big data decision analysis of the enterprise through the onlineization of business processes and business activities;
5. Enterprise-centric upstream and downstream customers and customers are connected online, using big data to optimize the entire ecological user experience, and continuously improve production and sales efficiency.

10

Agricultural manager
definition:

Among the agricultural economic cooperation organizations such as farmers' professional cooperatives, those engaged in management services such as agricultural production organization, equipment operation, technical support, product processing and sales.

Main tasks:

1. Collect and analyze information on supply and demand of agricultural products, customer demand data, etc.
2. Prepare production and service management plans and operation plans;
3. Dispatching production and service personnel and arranging production or service projects;
4. Guide production and service personnel to perform operational standards;
5. Unblock marketing channels and maintain customer relationships;
6. Organize product processing, transportation and marketing;
7. Evaluate production and service performance and seek financial support.

11

Industrial robotic system operator

definition:

A person who assembles, programs, commissions, changes process parameters, fixtures, and other auxiliary operations for industrial robots, industrial robot workstations, or systems using human-machine interaction devices such as teach pendants, operation panels, and related machine tools.

Main tasks:

1. Prepare the work according to the requirements of the relevant documents such as the process guidance documents;
2. According to the requirements of assembly drawings, electrical diagrams, process documents and other related documents, use tools, instruments, etc. for industrial robot workstations or system assembly;
3. Use the teaching hardware, computer, configuration software and other related software and hardware tools to program industrial robots, programmable logic controllers, human-computer interaction interfaces, motors and other sensors and visual and position sensors, unit function debugging and production. Joint adjustment
4. Using the human-machine interaction device such as the teach pendant and the operation panel to perform parameter setting and modification of the production process, selection and configuration of the menu function, and selection and switching of the program;
5. Check, confirm, replace and reset the equipment such as industrial robot system fixtures;
6. Observe the state change of the industrial robot workstation or system and perform corresponding operations, and perform an emergency stop operation in case of abnormal conditions;
7. Fill in the equipment installation, operation and other records.

12

Industrial robot system operator
definition:

Personnel performing data acquisition, condition monitoring, fault analysis and diagnosis, maintenance and preventive maintenance and maintenance operations on industrial robots, industrial robotic workstations or systems using tools, gauges, instruments and equipment.

Main tasks:

1. Perform routine inspection and diagnosis on mechanical systems such as industrial robot bodies, end actuators, and peripheral devices;
2. Carry out routine inspection and diagnosis on electrical systems such as industrial robot electronic control systems, drive systems, power supplies and lines;
3. According to the maintenance manual, perform zero-point calibration, dustproof, battery replacement, and oil replacement for industrial robots, industrial robot workstations or systems;
4. Use measurement equipment to collect industrial robots, industrial robot workstations or system operating parameters, working status and other data for monitoring;
5. Analysis, diagnosis and maintenance of industrial robot workstations or system failures;
6. Prepare the operation and maintenance and maintenance report of the industrial robot system.

13

Internet of Things installation and debugger

definition:

Use the instrumentation and special tools to install, configure, and debug personnel of IoT products and equipment.

Main tasks:

1. Inspection of products and equipment to detect the quality of IoT devices, sensing modules, and control modules;
2. Assemble the IoT equipment and related accessories, and select the location for installation and fixation;
3. Connect the IoT device circuit to realize the power supply of the device;
4. Establish the connection between the IoT device and the device, the device and the network, and detect the connection status;
5. Adjust the installation distance of the equipment and optimize the layout of the Internet of Things network;
6. Configure the parameters of the IoT gateway and short-distance transmission module;
7. Prevent and solve network 瘫痪, interruption and other events in IoT products and network systems to ensure the normal operation of IoT products and networks.

14

Urban rail transit line

definition:

Personnel engaged in the construction, overhaul, maintenance and inspection of urban rail transit line facilities.

Main tasks:

1. Inspection and inspection of line equipment and ancillary facilities;
2. Daily maintenance, repair and disease treatment of the line;
3. Daily maintenance, repair and disease treatment of the switch;
4. Daily maintenance, maintenance and disease treatment of auxiliary facilities and equipment of the line;
5. Line overhaul;
6. Daowei overhaul;
7. Line auxiliary equipment and equipment overhaul.

15

Urban rail transit train maintenance worker

definition:

Personnel engaged in the reception, overhaul and commissioning of urban rail transit trains.

Main tasks:

1. Inspect, inspect, disassemble, assemble and commission the main components of the train mechanical system;
2. Inspect, clean, replace, and repair key components of the train mechanical system, measure and adjust key parameters;
3. Use tools and technical means to measure, judge and deal with the failure of the mechanical system of the urban rail train;
4. Check and test the functions of the train traction system and the auxiliary power supply system;
5. According to the integrated circuit diagram, check the status of each electrical component of the traction control loop and the auxiliary control loop, and measure and adjust the electrical parameters of the main components;
6. Use tools and technical means to measure, judge and deal with the failure of the control circuit of the urban rail train electrical system;
7. Check and debug the performance of the entire train to ensure the state of the train out of the warehouse.

This occupation includes but is not limited to the following types of work: urban rail electric train maintenance workers (mechanical), urban rail electric train maintenance workers (electrical).

China Beidou system began to provide global services today!

At the press conference held on the afternoon of December 27th, the director of the China Satellite Navigation System Management Office and the Beidou satellite navigation system spokesperson Yu Chengqi announced:

The construction of the basic system of the Beidou No. 3 was completed and began to provide global services today. It marks that the service scope of the Beidou system has expanded from the region to the world, and the Beidou system has officially entered the global era.

2018 is the most arduous year for the construction of the Beidou system.

According to reports, the Beidou system is a global satellite navigation system that is independently constructed and operated independently by China and is compatible with other satellite navigation systems in the world. It can provide high-precision and high-reliability positioning for all kinds of users on a global scale, all-weather and all-day. , navigation, timing service.

Since the 1990s, the Beidou system has been developed and developed according to the "three-step" development strategy. It is first active and passive, first regional and global, and has built Beidou-1, Beidou-2 and Beidou No.3 systems. A road for the construction of satellite navigation systems with Chinese characteristics.

Today, in 2012, Beidou Systems provides services to the Asia-Pacific region; six years later, the Beidou system is open to the world. The construction of the Beidou system has broken through more than 100 key technologies in four major categories, ensuring stable and moderate service in the Asia-Pacific region, completing the construction of the global service core constellation network, and realizing the overall jump in China's space capability.

2018 is an extraordinary year in the history of the development of the Beidou system, and it is also the most arduous year of construction. Network transmission creates records, system operation ensures stability, international cooperation highlights are numerous, and application promotion has achieved remarkable results:

First, the high-density density network formed a global service capability, and completed 10 arrows and 19 stars in one year, setting a new record for the construction of the world's satellite navigation system and the same type of space launch in China.

Second, the high-reliability operation maintains stable services in the Asia-Pacific region, develops and launches backup satellites, continuously refines the orbit control strategy, and operates the ground system with high stability, strengthens global monitoring and evaluation, ensures a smooth transition of the system, and achieves stable and improved service performance.

Third, high standards to create new highlights of international cooperation, successfully hosted the 13th International Conference of the United Nations Global Navigation Satellite System, President Xi sent a congratulatory letter to the conference, the conference issued Xi'an initiative, set a new benchmark for the conference, inject new impetus; built the first The overseas Beidou/GNSS Center signed an intergovernmental agreement on Sino-Russian satellite navigation cooperation to pragmatically push the Beidou system to go out.

Fourth, high-precision features drove new breakthroughs in application. The sales of basic products such as Beidou chips and modules exceeded 70 million pieces. The performance price was comparable to the international level. Beidou high-precision products were exported to more than 90 countries and regions. Beidou ground-based technology and product system output overseas.

Beidou system services are available all over the world, including the “Belt and Road” countries and regions.

At present, the Beidou system is stable in the orbiting satellite and ground systems. After global testing and evaluation, the system performance meets expectations and has global service capabilities. Today, the new Beidou System Open Service Performance Specification (version 2.0) is released simultaneously. Beidou system service performance is:

System service area: global;

Positioning accuracy: 10 meters horizontally and 10 meters high (95% confidence);

Speed ​​measurement accuracy: 0.2 meters per second (95% confidence);

Timing accuracy: 20 nanoseconds (95% confidence);

System service availability: better than 95%.

Among them, in the Asia-Pacific region, the positioning accuracy is 5 meters and the elevation is 5 meters (95% confidence). The Beidou system services are available to all parts of the world, including the “Belt and Road” countries and regions.

The Beidou system has become one of the important achievements of China’s 40 years of reform and opening up.

The Beidou system has become one of the important achievements China has made in the past 40 years of reform and opening up. At present, the Beidou system has been widely used in China's national economy, national defense security, and people's lives. At the same time, it has benefited from the country and benefited the world. It has made great progress and remarkable benefits.

First, the scale of the industry has continued to grow and the competitiveness has increased significantly. China's satellite navigation and location services have reached 14,000 units, employing more than 500,000 people, forming the five major industrial areas of the Pearl River Delta, Beijing-Tianjin-Hebei, Yangtze River Delta, Hubei, Henan, Sichuan and Shaanxi, and growing a number of powerful satellite navigation. enterprise. With the independent Beidou chip entering the 28-nanometer process, the total number of satellite navigation patent applications in China has reached 54,000, ranking first in the world.

Second, the application field is constantly expanding and the scale is changing with each passing day. Applications in transportation, marine fisheries and other fields have continued to deepen. There are 6.17 million road operating vehicles, 35,600 postal and express vehicles, 36 central buses, 80,300 inland navigation facilities, and 2,960. Marine navigation facilities using the Beidou system. The Hong Kong-Zhuhai-Macao Bridge adopts the Beidou high-precision deformation monitoring system to effectively ensure the safe operation of the bridge. Based on Beidou's high air image detection system, it can effectively improve the quality of China's medium-term weather forecast. In terms of mass application, Beidou has realized large-scale application on smart phones. Most of the smartphones sold in the domestic market support Beidou positioning function; 2 million Taipei bucket passenger cars are equipped with intelligent vehicle terminals, and more than 10 car companies in China 30 Batch application on multiple models; intelligent driving production cars based on Beidou high-precision service are expected to be launched in 2019.

Third, the internationalization achieved new breakthroughs, and Beidou won wide overseas praise. Asian countries such as Myanmar, Laos, Cambodia, Thailand, Indonesia, Pakistan, Kuwait, Algeria, Uganda and other African countries, as well as Russia, Maldives and other countries, have successively purchased the Beidou products of Chinese enterprises. The service performance and product quality of Beidou system have created a reputation in the local area. . Beidou has entered international international civil aviation, international maritime affairs, international mobile communications and other international organization standards. ICAO has approved the Big Dipper-based enhanced service provider identification number and standard time identification number. The International Search and Rescue Satellite Organization has incorporated Beidou into the global satellite search and rescue system plan. Global users provide distress alert services.

In addition, Beidou system has been well applied in smart cities, disaster reduction and disaster relief, agriculture, forestry and fisheries, meteorological environment, precision machine control and other fields, resulting in significant economic and social benefits.

Beidou provides global services, which is a big step in the construction of Beidou and a new starting point for the development of Beidou. It welcomes new opportunities and faces new challenges.

According to the plan, the global network construction of Beidou No. 3 will be completed in 2020. In 2035, a more comprehensive, more integrated and smarter national integrated positioning and navigation time (PNT) system will be built with the Beidou system as the core. China is willing to share the achievements of the Beidou system with all countries in the world. Beidou will serve the world and benefit the people with stronger functions and better performance.