Crane

The invention claimed is: 1. A working machine that hoists a load using a sling wire rope suspended by a hook at an end of a wire rope, the working machine comprising: a detection section that detects a let-out length of the wire rope; a control section including a resonance-frequency computation section that computes a resonance frequency of a swing of the load based on a sum of a suspension length of the wire rope and a sling length of the sling wire rope; and a filter section that generates a filtered control signal by attenuating a basic control signal of an actuator of a boom in a frequency range of a frequency component to be attenuated and at a rate of attenuation with reference to the resonance frequency, the frequency range of the frequency component to be attenuated and the rate of attenuation being computed based on the suspension length and the sling length, wherein the control section controls a manipulation amount of luffing, swiveling, extension, or retraction of the boom by using the filtered control signal, wherein the resonance-frequency computation section obtains an average value and a minimum value of the sling length based on past measurement values, computes a reference resonance frequency of the swing of the load computed from a sum of the suspension length and the average value of the sling length, and computes an upper limit resonance frequency of the swing of the load computed from a sum of the suspension length and the minimum value of the sling length, and wherein the control section computes the frequency range of the frequency component to be attenuated and the rate of attenuation depending on the suspension length and a ratio of the upper limit resonance frequency to the reference resonance frequency. 2. The working machine according to claim 1 , wherein the sling length is a length of from a hook position of the wire rope to a position of a center of gravity of the load. 3. The working machine according to claim 1 , wherein the sling length is an average value of sling lengths. 4. A working machine that hoists a load using a sling wire rope suspended by a hook at an end of a wire rope, the working machine comprising: a detection section that detects a let-out length of the wire rope; a control section including a resonance-frequency computation section that computes a resonance frequency of a swing of the load based on a sum of a suspension length of the wire rope and a sling length of the sling wire rope; and a filter section generates a filtered control signal by attenuating a basic control signal of an actuator of a boom in a frequency range of a frequency component to be attenuated and at a rate of attenuation with reference to the resonance frequency, the frequency range of the frequency component to be attenuated and the rate of attenuation being computed based on the suspension length and the sling length, wherein the control section controls a manipulation amount of luffing, swiveling, extension, or retraction of the boom by using the filtered control signal, and wherein the control section makes the frequency range of the frequency component to be attenuated and the rate of attenuation different between a manual control and an automatic control of the working machine. 5. A working machine that hoists a load using a sling wire rope suspended by a hook at an end of a wire rope, the working machine comprising: a detection section that detects a let-out length of the wire rope; a control section including a resonance-frequency computation section that computes a resonance frequency of a swing of the load based on a sum of a suspension length of the wire rope and a sling length of the sling wire rope; and a filter section generates a filtered control signal by attenuating a basic control signal of an actuator of a boom in a frequency range of a frequency component to be attenuated and at a rate of attenuation with reference to the resonance frequency, the frequency range of the frequency component to be attenuated and the rate of attenuation being computed based on the suspension length and the sling length, wherein the control section controls a manipulation amount of luffing, swiveling, extension, or retraction of the boom by using the filtered control signal, and wherein the control section computes a composite frequency resulting from combination of the resonance frequency and a natural vibration frequency excited when a structural component constituting the working machine is vibrated by an external force, and generates the filtered control signal in which the frequency component is attenuated in the frequency range at the rate with reference to the composite frequency. 6. A method for a working machine that hoists a load using a sling wire rope suspended by a hook at an end of a wire rope, the method comprising: computing a resonance frequency of a swing of the load based on a sum of a suspension length of the wire rope and a sling length of the sling wire rope; computing a frequency range of a frequency component to be attenuated and a rate of attenuation based on the suspension length and the sling length; and generating a filtered control signal by attenuating the frequency component of a basic control signal of an actuator in the frequency range at the rate with reference to the resonance frequency, wherein the computing a resonance frequency of a swing of the load comprises: obtaining an average value and a minimum value of the sling length based on past measurement values, computing a reference resonance frequency of the swing of the load computed from a sum of the suspension length and the average value of the sling length, computing an upper limit resonance frequency of the swing of the load computed from a sum of the suspension length and the minimum value of the sling length, and computing the frequency range of the frequency component to be attenuated and the rate of attenuation depending on the suspension length and a ratio of the upper limit resonance frequency to the reference resonance frequency.