Serial manipulators are the most common industrial robots and they are designed as a series of links connected by motor-actuated joints that extend from a base to an end-effector. Often they have an anthropomorphic arm structure described as having a "shoulder", an "elbow", and a "wrist". Serial robots usually have six joints, because it requires at least six degrees of freedom to place a manipulated object in an arbitrary position and orientation in the workspace of the robot. A popular application for serial robots in today's industry is the pick-and-place

assembly Assembly may refer to: Organisations and meetings * Deliberative assembly, a gathering of members who use parliamentary procedure for making decisions * General assembly, an official meeting of the members of an organization or of their representa ...

robot, called a

SCARA The SCARA is a type of industrial robot. The acronym stands for Selective Compliance Assembly Robot Arm or Selective Compliance Articulated Robot Arm. By virtue of the SCARA's parallel-axis joint layout, the arm is slightly compliant in the X ...

robot, which has four degrees of freedom.

Structure

In its most general form, a serial robot consists of a number of rigid links connected with joints. Simplicity considerations in manufacturing and control have led to robots with only revolute or

prismatic joint A prismatic joint is a one- degree-of-freedom kinematic pair which constrains the motion of two bodies to sliding along a common axis, without rotation; for this reason it is often called a slider (as in the slider-crank linkage) or a sliding ...

s and orthogonal, parallel and/or intersecting joint axes (instead of arbitrarily placed joint axes).
Donald L. Pieper derived the first practically relevant result in this context, referred to as

321 kinematic structure 321 kinematic structure is a design method for robotic arms (serial manipulators), invented by Donald L. Pieper and used in most commercially produced robotic arms. The inverse kinematics of serial manipulators with six revolute joints, and with ...

: ''The inverse kinematics of serial manipulators with six revolute joints, and with three consecutive joints intersecting, can be solved in closed-form, i.e. analytically'' This result had a tremendous influence on the design of industrial robots. The main advantage of a serial manipulator is a large

workspace Workspace is a term used in various branches of engineering and economic development. Business development Workspace refers to small premises provided, often by local authorities or economic development agencies, to help new businesses to estab ...

with respect to the size of the robot and the floor space it occupies. The main disadvantages of these robots are: * the low stiffness inherent to an open kinematic structure, * errors are accumulated and amplified from link to link, * the fact that they have to carry and move the large weight of most of the actuators, and * the relatively low effective load that they can manipulate.

Kinematics

The position and orientation of a robot's

end effector In robotics, an end effector is the device at the end of a robotic arm, designed to interact with the environment. The exact nature of this device depends on the application of the robot. In the strict definition, which originates from serial ro ...

are derived from the joint positions by means of a geometric model of the robot arm. For serial robots, the mapping from joint positions to end-effector pose is easy, the inverse mapping is more difficult. Therefore, most industrial robots have special designs that reduce the complexity of the inverse mapping.

Workspace

The reachable workspace of a robot's end-effector is the manifold of reachable frames.
The dextrous workspace consists of the points of the reachable workspace where the robot can generate velocities that span the complete tangent space at that point, i.e., it can translate the manipulated object with three degrees of freedom, and rotate the object with three degrees of rotation freedom.
The relationships between joint space and Cartesian space coordinates of the object held by the robot are in general multiple-valued: the same pose can be reached by the serial arm in different ways, each with a different set of joint coordinates. Hence the reachable workspace of the robot is divided in configurations (also called assembly modes), in which the kinematic relationships are locally one-to-one.

Singularity

A singularity is a configuration of a serial manipulator in which the joint parameters no longer completely define the position and orientation of the end-effector. Singularities occur in configurations when joint axes align in a way that reduces the ability of the arm to position the end-effector. For example when a serial manipulator is fully extended it is in what is known as the boundary singularity.What are singularities in a six-axis robot arm?
/ref> At a singularity the end-effector loses one or more degrees of twist freedom (instantaneously, the end-effector cannot move in these directions).
Serial robots with less than six independent joints are always singular in the sense that they can never span a six-dimensional twist space. This is often called an architectural singularity. A singularity is usually not an isolated point in the workspace of the robot, but a sub-manifold.

Redundant manipulator

A redundant manipulator has more than six degrees of freedom which means that it has additional joint parameters P. Moubarak, et al.
A Globally Converging Algorithm for Adaptive Manipulation and Trajectory Following for Mobile Robots with Serial Redundant Arms
Robotica, 31 (8) (2013) 1299 – 1311. that allow the configuration of the robot to change while it holds its end-effector in a fixed position and orientation. A typical redundant manipulator has seven joints, for example three at the shoulder, one elbow joint and three at the wrist. This manipulator can move its elbow around a circle while it maintains a specific position and orientation of its end-effector. A snake robot has many more than six degrees of freedom and is often called hyper-redundant.

Manufacturers

* ABB Robotics *

Adept Technology Omron Adept Technology, Inc. is a multinational corporation with headquarters in Pleasanton, California (San Francisco Bay Area). The company focus on industrial automation and robotics, including software and vision guidance. Adept has offices t ...

Comau Comau (''COnsorzio MAcchine Utensili'') is an Italian multinational company in the automation field based in Turin, Italy, and part of the automaker Stellantis. The company is present in 13 countries and employs 4,000 people and provides service ...

* Epson Robots *

FANUC Robotics FANUC ( or ; often styled Fanuc) is a Japanese group of companies that provide automation products and services such as robotics and computer numerical control wireless systems. These companies are principally of Japan, Fanuc America Corporat ...

Kawasaki Robotics Kawasaki ( ja, 川崎, Kawasaki, river peninsula, links=no) may refer to: Places *Kawasaki, Kanagawa, a Japanese city ** Kawasaki-ku, Kawasaki, a ward in Kawasaki, Kanagawa ** Kawasaki City Todoroki Arena ** Kawasaki Stadium, a multi-sport stadium ...

KUKA KUKA is a German manufacturer of industrial robots and systems for factory automation. It has been predominantly owned by the Chinese company Midea Group since 2016. The KUKA Robotics Corporation has 25 subsidiaries, mostly sales and servi ...

* Mitsubishi *

Motoman The is a Japanese manufacturer of servos, motion controllers, AC motor drives, switches and industrial robots. Their Motoman robots are heavy duty industrial robots used in welding, packaging, assembly, coating, cutting, material handling and ...

* Staubli *

Robotics Design Robotics Design Inc. is a company that designs and builds modular robots, founded and incorporated in Montreal, Quebec, Canada in 1997. The company produces mobile robots, robotic manipulators and manual arms as well as custom solutions using mo ...

Universal Robots Universal Robots is a Danish manufacturer of smaller flexible industrial collaborative robot arms ( cobots), based in Odense, Denmark. Since 2015, the company has been owned by American automatic test equipment designer and manufacturer Teradyne ...

References

{{Robotics Robot kinematics - Robotic manipulators